KR20080044588A - Picture region based trans-coding method - Google Patents

Abstract

A transcoding method based on a screen region is provided to perform the transcoding of received compression encoding data by screen region while the digital multimedia broadcasting of a central broadcasting station is relaying in a local broadcasting station, thereby effectively using it in partial screen editing such as the insertion of a logo for local broadcasting without the deterioration of the quality of the entire screen. A transcoding method based on a screen region comprises the following steps of: dividing the encoding data of a specific screen region and the encoding data of a main screen region(1); performing the transcoding of the encoding data of the specific screen region(2); recombining the transcoding data of the specific screen region and the encoding data of the main screen region(3); and repeating above processes to a final screen.

Description

Picture region based trans-coding method

1 is a processing flowchart of a screen area based transcoding method according to the present invention.

2 is an example of division of a screen area to which the transcoding method of the present invention is applied.

The present invention relates to a method for separately transcoding compressed coded data for each screen region.

In digital multimedia broadcasting, a central broadcasting station compresses and encodes a video signal and transmits it through a wired network in the form of digital compressed data, and the local broadcasting station receives compressed data and relays it again, or inserts its own logo or subtitles. After partial screen editing, the relay is performed.

Existing methods for screen editing of a local broadcasting station decode the compressed coded data sent from the central broadcasting station, restore it to a reproduced bitmap image, and then perform partial screen editing such as inserting its own logo or subtitle, and then again. There is a method of recompression coding for terrestrial transmission.

However, this method has a problem in that the image quality is seriously degraded as a whole as the decoding coded data is decoded and recompressed. In general, compression coding results in the loss of visual information. As it is performed in succession, the loss of visual information has a fundamental problem. This method has a problem in that deterioration of image quality occurs more seriously, especially with a higher compression ratio.

Therefore, in order to solve such a problem, the present invention performs transcoding only on a specific screen region where editing is performed, and uses the original compressed coded data as it is for the remaining main screen region, thereby effectively preventing the quality of the entire screen. We want to provide a way to do partial screen editing.

The present invention transcodes only a specific screen region where partial editing such as a screen logo or subtitle is inserted to generate new encoded data, and transcodes the original main encoded region using the original compressed encoded data as it is. By combining the data and the original compressed coded data for each screen area, an effective transcoding method capable of partial screen editing while preventing deterioration of the entire screen is provided.

The present invention relates to a screen area-based transcoding method for enabling partial screen editing while preventing the quality of the entire screen. Hereinafter, the operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. do.

1 is a processing flowchart of a screen area based transcoding method according to the present invention.

The present invention provides a first step (1) of separating coded data of a specific screen region and coded data of a main screen region, a second step (2) of performing transcoding on coded data of a specific screen region, and The third step (3) of recombining the transcoding data and the encoded data of the main picture area, and the first step (1) to the third step (3) is repeated to the last screen.

The first step (1) of separating the encoded data of the specific screen region and the encoded data of the main screen region is performed by analyzing the original compressed encoded data and separating the encoded data of the specific screen region and the encoded data of the main screen region. . For example, in the case of digital multimedia broadcasting, since the H.264 method, which is a well-known international standard encoding method, is used, and the configuration of the encoded data using the H.264 method is already known, when analyzing the original compressed coded data, a specific screen area It is possible to separate the data of the.

The second step (2) of performing transcoding on the encoded data of the specific screen region may be performed in two ways.

One method is to perform decoding, screen editing, and recompression encoding on coded data of a specific screen area.

In detail, first, the encoded data of a specific screen region is decoded to restore the bitmap reproduced image data, and a partial blending of the restored reproduced image bitmap data with a new image or a new logo is inserted. Edit the screen and finally re-encode the specific screen area. The same coding scheme as that used for generating original compressed coded data is used for decoding and recoding a specific screen region.

Another method is to exchange encoded data of a specific screen region with new encoded data that has already been generated. This method compresses and encodes a new video (e.g., a broadcaster logo) corresponding to the size of a predetermined screen area in advance, and then exchanges the result data with encoded data of a specific screen area.

The third step (3) of recombining the transcoding data of the specific screen area and the encoded data of the main picture area is newly generated in the second step (2) and the encoded data of the main picture area separated in the first step (1). New compression coded data is generated by combining transcoding data of a specific screen region. As a result, the encoded data of the specific screen region is replaced to generate new compressed encoded data.

The process from the first step (1) to the third step (3) is repeated until the last screen is processed.

In order for the processing from the first step (1) to the third step (3) to be effective, the encoded data of the specific screen region constituting the original compressed encoded data and the encoded data of the main screen region are independently irrelevant. Compression coded. Otherwise, the receiver may cause an error in decoding due to the replacement of the encoded data of the specific screen region near the specific screen region.

2 is an example of division of a screen area to which the transcoding method of the present invention is applied.

Partial screen editing is possible at any position on the screen, but the position where the broadcaster's screen logo is inserted is usually located at the top left or top of the screen, and in the case of subtitles, it is generally located at the bottom of the screen. Coding can be done mainly on the top left or on the top or bottom. For example, a partial edit such as inserting a logo may determine a specific screen area as shown in FIG. 2, and in general, since compression encoding is performed in units of 16 x 16 pixel blocks, an integer multiple of 16 x 16 pixel blocks is used. The specific screen area is determined.

According to the present invention, a partial screen such as inserting a logo for local broadcasting without degrading the quality of the entire screen by transcoding received compressed coded data for each screen area while the local broadcasting station relays the digital multimedia broadcasting of the central broadcasting station. It can be used effectively to handle editing.

Claims (4)

In transcoding compressed coded data, A first step (1) of separating encoded data of a specific screen region and encoded data of a main screen region, a second step (2) of performing transcoding on the encoded data of a specific screen region, and transcoding data of a specific screen region And repeating the third step (3) of recombining the encoded data of the main screen area, and repeating the first step (1) to the third step (3) to the last screen. Transcoding method. The method of claim 1, The second step (2) of transcoding the encoded data of the specific screen region is performed by decoding, screen editing, and recompression encoding on the encoded data of the specific screen region, or already generating the encoded data of the specific screen region. A screen region-based transcoding method, which is performed by exchanging new coded data. The method of claim 1, The coded data of a specific screen region and the coded data of the main screen region are independently compressed without being correlated with each other. The method of claim 1, Screen area-based transcoding method characterized in that the specific screen area is formed of an integer multiple of the 16 x 16 pixel block.

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