KR100416557B1 - Method for reproducing partial interlaced image and apparatus thereof - Google Patents

Abstract

A partial interlaced video reproduction method and apparatus for partially synthesizing an even image and an odd image broadcast in an interlaced manner or output from another device to reproduce an enhanced image are disclosed. The present invention compares the odd-numbered image with the even-numbered image to detect a motion object, and when the motion object is detected, synthesizes data of the odd and even lines with respect to the area excluding the motion object to generate a progressive image area. And separately generating an odd or even image region with respect to the motion object region and compositing with the progressive image region.

Description

Method for reproducing partial interlaced image and apparatus

TECHNICAL FIELD The present invention relates to an image output device such as a television, and in particular, to partially synthesize an even image and an odd image, which are broadcast in an interlaced manner or output from another device (for example, a DVDP or a video player). The present invention relates to a method for playing a partial interlaced video and a device for playing an improved image.

Typically, television broadcasts transmit interlaced images. Televisions display such interlaced images in an interlaced manner. The interlacing method scans the screen alternately based on the time axis by dividing the horizontal scanning line into odd and even numbers. In other words, the interlace method alternately displays horizontal scanning lines alternately with an image consisting of odd horizontal scanning lines (hereinafter referred to as 'ad field') and an image consisting of even horizontal scanning lines (hereinafter referred to as 'even field'). At this time, one ad field and the next one even field are called one frame.

1 is a conceptual diagram illustrating a method for improving an image in a conventional television.

First, the ad field image 110 and the even field image 120 exist. Here, when the ad field image 110 and the even field image 120 are compared, there are objects 112 and 122 that require motion compensation in each field. In this case, in order to improve the quality of the image, the ad field image 110 and the even field image 120 are combined to form a motion compensated (field interpolated) frame image 130. As a result, there is an object 132 in which the motion compensation is performed using the objects 112 and 122 between the two fields in the frame image 130.

However, this motion compensation algorithm requires a large amount of computation, and image quality is deteriorated if motion compensation is not properly performed. Therefore, the conventional image enhancement method requires a high-speed processor to increase the performance of motion compensation, thereby increasing the cost of the product and increasing the complexity of the circuit.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a partial interlaced video reproduction method for reproducing an improved image by partially composing an even image and an odd image, which are broadcast in an interlaced manner or output from another device. There is.

Another object of the present invention is to provide a video reproducing apparatus applying the partial interlaced video reproducing method.

In order to solve the above technical problem, the video playback method of the present invention,

Comparing the odd and even images to detect a moving object;

When the motion object is detected in the process, data of the odd and even lines are synthesized with respect to an area except the motion object to generate a progressive image area, and an odd or even image area is separately generated for the motion object area. And a process of compositing with the progressive image area.

In order to solve the above other technical problem, the video playback apparatus of the present invention,

First storage means for storing an odd field image and an even field image input in an interlace;

Second storage means for storing partial odd or even image data for the motion object region;

A motion object is detected by comparing the odd field image and the even field image stored in the first storage means, and the odd or even image is obtained for the motion object region while compositing odd and even field images for the image region excluding the motion object. And control means for generating separately and storing in the second storage means.

1 is a conceptual diagram illustrating a method for improving an image in a conventional television.

2 is a conceptual diagram illustrating a method for generating a partial interlaced image according to the present invention.

3 is a block diagram showing a video reproducing apparatus according to the present invention.

4 is a flowchart illustrating a method of playing a partial interlaced video according to the present invention.

FIG. 5 is a flowchart illustrating a method of generating a partial interlace ad or even field image in FIG. 4.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a conceptual diagram illustrating a method for generating a partial interlaced image according to the present invention.

First, the ad field image 210 and the even field image 220 exist. Here, when the ad field image 210 and the even field image 220 are compared, the objects 212 and 224 having movements are present in each field.

Subsequently, the ad field and the even field combine the odd scan lines of the ad field image 210 and the even scan lines of the even field image 220 by excluding portions except the objects 212 and 224 where the movement occurs. 230, 240). In addition, the motion-producing objects 212 and 224 may be generated as odd scan lines or vertical interpolated odd scan lines in the first and second progressive images 230 and 240, or as even scan lines or vertical interpolated even scan lines.

3 is a block diagram showing a video reproducing apparatus according to the present invention.

Referring to FIG. 3, the image input unit 320 inputs an interlaced video signal generated by an interlaced video signal from a tuner 330 or from another device (for example, a DVD or a VCR) (not shown). To convert the digital video signal. In an embodiment, the first memory 340 applies random access memory (RAM), and selects the ad field 342, the even field 344, and the object 346 requiring motion compensation from the image input unit 320. Save it. In an embodiment, the second memory 360 applies a frame memory (also referred to as a video memory) and stores partial interlace ad or even image data.

The central processor unit (CPU) 310 controls the image input unit 320 to store image data in the first memory 340 in units of an ad field and an even field, and compares the stored ad field image and the even field image. After detecting an object requiring motion compensation, the object is stored in the first memory 340 and a partial interlace ad field is generated for the object area requiring motion compensation while composing the ad and even field images for the image area except for the object requiring motion compensation. The image or partial interlace even image data is generated and stored in the second memory 360 through the image output controller 350.

The image output controller 350 converts the partial interlace ad field image or the partial interlace even image data stored in the second memory 360 into an analog image signal and controls the display unit according to a predetermined unit of time under the control of the CPU 310. 370).

4 is a flowchart illustrating a video reproducing method according to the present invention.

First, an image signal broadcast in an interlaced manner or generated from another device is stored as ad field and even field image data (step 410).

Subsequently, the ad field image and the even field image are compared to detect an object having motion, that is, an object requiring motion compensation (step 420). Here, a method for detecting an object requiring motion compensation is described in the document `` A Meaning of Object Tracking Algorithm through Rebalancing '' (Journal S, 37, 6, pp. 1-8, 2000.11), `` Object-based Stereo Video Coding ''. Object-based Stereo Sequence Coding ”(1998-06 V.21, n.1, pp. 681-684),「 Ultra-Low Rate Video Transmission Using Object-Oriented Coding and Motion Compensation Interpolation 」 The Journal of the Institute of Electronics Engineers of Korea 1994 Autumn Conference (2) 1994, 11 V.17, n.2, pt. 2, pp.1227-1230).

Subsequently, in the field with the object requiring motion compensation, all parts except the object are synthesized into the ad image and the even field image, and the object requiring the motion compensation is a partial interlaced ad field image or part according to two embodiments as follows. An interlaced even field image is generated (step 440). First, in the first embodiment, only odd or even line data is left and the rest is left blank. Of course, odd-numbered images should leave odd lines of data, and even-numbered images should leave even-numbered data. Also, in the second embodiment, the data of the odd lines is interpolated vertically (takes an average value of two data) with the next odd line data, and the data of the even lines is interpolated vertically with the data of the next even line. Otherwise, in the field without an object requiring motion compensation, an odd and even field image is synthesized to form a progressive image (step 430).

Subsequently, the progressive image including the partial interlace ad field image or the partial interlace even image data is displayed on the screen in time (step 450).

FIG. 5 is a flowchart illustrating a method of generating a partial interlace ad or even field image in FIG. 4.

First, the stored ad or even field image data is read one pixel at a time (step 510).

Next, it is determined whether the read pixel data is data of the motion compensation region (step 520).

Subsequently, if the pixel data is data of the motion compensation region, pixel data of even or odd lines corresponding to the read pixel data is determined (step 530). In this case, the pixel data of the even or odd lines is determined as blank or linearly interpolated with the pixel data of the next odd or even line. If the pixel data is not included in the motion compensation region, the pixel data of the even or the ad line corresponding to the read pixel data is read (step 540).

Subsequently, corresponding even or odd line data is stored (step 550).

Subsequently, the process is repeated until the pixels of the odd or even field image are finally determined (step 560).

The present invention is not limited to the above-described embodiment, and of course, modifications may be made by those skilled in the art within the spirit of the present invention.

As described above, according to the present invention, the partial compensation of the even and odd images output by the interlaced method can reduce the amount of motion compensation calculations compared with the conventional art, and thus can improve the image even when using a low speed processor. . In addition, the present invention does not perform image compensation in principle, thereby providing a clear screen without distortion.

Claims (6)

In the video playback method, Comparing the odd and even images to detect a moving object; When the motion object is detected in the process, data of the odd and even lines are synthesized with respect to an area except the motion object to generate a progressive image area, and an odd or even image area is separately generated for the motion object area. A video playback method comprising the step of compositing with a progressive image area. The method of claim 1, wherein the odd or even field image for the object area, Reading odd or even field image data by one pixel; If the read pixel data is data of the motion compensation region, the pixel data of the even or odd lines corresponding to the pixel data is determined. Otherwise, the pixel data of the even or odd lines corresponding to the read pixel data is read. process; And And storing the pixel data of the even or odd lines determined or read in the process. The method of claim 1, wherein the odd or even field image of the object area is to leave pixel data of an odd or even line and to process pixel data of an even or odd line corresponding to the blank. . The method of claim 1, wherein the odd or even field image of the object area is determined by interpolating pixel data of the corresponding even line in the case of odd line data, and interpolating of the even line data of the object area in case of the even line data. The video playback method, characterized in that determined by the pixel data. The method of claim 1, further comprising: synthesizing the odd-numbered image and the even-numbered image to generate a progressive image when the motion object is not detected in the process. In the video reproducing apparatus, First storage means for storing an odd field image and an even field image input in an interlace; Second storage means for storing partial odd or even image data for the motion object region; A motion object is detected by comparing the odd field image and the even field image stored in the first storage means, and the odd or even image is obtained for the motion object region while compositing odd and even field images for the image region excluding the motion object. Control means for generating separately and stored in the second storage means, and outputs the image stored in the second storage means according to the time every predetermined time.