KR19980015868A - Hangul caption processing method - Google Patents

Abstract

We propose a Hangul caption processing method based on KSC (Korea Standard Code) 5700 system which is Korean Korean code according to Unicode 2.0.

Since the caption line encoding format of the conventional Hangul caption processing method is an 8-bit caption data, there is a problem that Unicode can not be encoded and decoded with caption data. Thus, the Hangul caption processing method of the present invention includes a caption data encoder and a font memory A method of encoding and decoding a caption data decoder, the method comprising: encoding and transmitting caption data excluding a parity bit to a caption line of a video signal with 2 bytes of Unicode; Analyzing the extracted caption data according to a data format, converting the analyzed data into a combination type, reading and displaying the corresponding character in the font memory, and decoding and decoding the unencoded caption data. You can encode, and in Unicode The advantage of using a table to convert to a combinatorial form is that memory size can be reduced to display each text data.

Description

Hangul caption processing method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a caption data processing method of a TV or a VTR, and more particularly, to a Korean character caption encoding and decoding method using a Korea Standard Code (KSC) 5700 system, which is a Korean Hangul code according to Unicode 2.0.

Unicode 2.0 has emerged as a result of efforts to extend the 8-bit ASCII code used in recent years to represent all the characters in the world in 16-bit mode. Therefore, our Korean code is also used in KSC 5601-1987, KSC 5601- In 1992, the KSC 5700 was born.

256 characters that 8 bits can have are not problematic in English or Latin, but there are limits to expressing various characters such as Korea, Japan, Chinese, and Arabic.

Also, it is difficult to expect a good exchange of data between countries in the current way of writing different letters to the same code value in each country.

For this reason, we plan to extend the code to a 16-bit system to include all the world's characters in a 65,536-character area.

In fact, in a country that uses English, it takes twice as much space as it is now, which is a waste of general text and communication.

However, when Unicode is put into practical use, the standardization of the character system around the world has made it possible to create a single program, which makes it possible to process the characters of all countries.

According to Unicode 2.0, the existing English range is from 0020h to 007Fh (where h is a hex code) 11172 are continuously classified within the range of AC00h to D7A3h.

The caption line encoding format according to the prior art prior to the birth of such Unicode will be described as follows.

FIG. 1 is a diagram of a caption line encoding format according to the related art. Referring to FIG. 1, the caption data includes two bytes in an NRZ (Non-Return to Zero) format on the 21st line of a radix field of a National Television System Committee .

In each byte of the caption data, the most significant bit (MSB) is allocated as a parity bit for transmission error check. Since the lower 7 bits (D0 to D6) are actually meaningful data, the range is within 00h to 7Fh .

Also, the English text actually displayed is meaningful only by one byte, and its range is 20h to 7Fh, which is an ASCII code system as shown in FIG.

The 8 bit (including parity bit) caption data of the caption line encoding format according to the related art can not encode and decode Unicode including the world characters in the 165-bit 65536 character region into the caption data.

It is an object of the present invention to provide a method of processing a Hangul caption that can encode Unicode and reduce the font size of the Hangul caption.

1 is a diagram of a caption line encoding format according to the prior art;

FIG. 2 is a diagram showing text data of English captions according to the prior art; FIG.

3 is a flow chart of a Hangul caption encoding method according to the present invention.

4 is a flow chart of a Hangul caption decoding method according to the present invention.

5 is a diagram of a caption line encoding format according to the present invention;

The method of processing Hangul caption according to the present invention is characterized in that the caption data secures an 8-bit area as a data area excluding parity bits in order to encode Unicode.

In addition, in the Unicode decoding, the caption data is displayed by referring to the combined code conversion table.

Hereinafter, a Hangul caption processing method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a flow chart of a Hangul caption encoding method according to the present invention. FIG. 4 is a flow chart of a Hangul caption decoding method according to the present invention. First, when a Hangul caption encoding is performed, Data is recorded and a caption broadcast is selected (S31).

If the caption broadcast is selected, the 21st line of the odd field of the NTSC is searched (S32), and a clock run-in (CRI) pulse is inserted as shown in FIG. 5 (S33).

Thereafter, the start bit is inserted (S34), and the first odd parity bit is inserted after the 8-bit region is inserted into the pure data area excluding the Unicode 1st byte, that is, the parity bit (S36) .

Then, a second odd parity bit is inserted (S38) after inserting the 8-bit region into the pure data area excluding the second Unicode byte, that is, the parity bit (S37).

The caption data is encoded into the video signal (S39) and recorded on the broadcast master tape (S40).

The broadcast master tape on which the caption data is recorded is reproduced and broadcasted by a VTR (Videdo Tape Recorder) for broadcasting.

This broadcast is received by a TV (Television) or VTR (Videdo Cassette Recorder) (S41), and Unicode caption processing is performed (S42).

The 21st line of the NTSC field of the input video signal is searched (S43) and the 9-bit × 2 caption data is sliced (S44).

At this time, an error is detected by a parity bit check (S45). If there is an error, an error is processed (S46). If there is no error, a complete 2 byte text from which a parity bit is removed is extracted (S47).

On the other hand, in order to display the extracted text data on a screen of a TV or the like, a font ROM storing an image of each text is required.

However, since the Korean characters which can be expressed in the Hangul caption decoding are only 11172 characters, a too large memory is required for storing all the fonts for each individual character, so a code conversion table for converting into a combination type is used (S48).

In Unicode 2.0 (KSC 5700), Hangul is arranged in a line of 11172 characters from "[AC00h]" to "high [D7A3h]".

It can be a, ㄲ, b, c, ... , Heh to 19, neutral as a, ㅐ, ㅑ, ㅒ, ㅓ, ... , ㅣ up to 21, a, ㄲ, b, c, ... , And the alphabetic characters are arranged in order of 19 × 21 × 28 = 11172 characters.

Therefore, the method of separating the suffixes from Unicode Hangul can be handled by simple calculation.

A conversion table including these calculation expressions is provided to utilize a combined type ROM instead of a font ROM for a total of 11172 characters.

The text data extracted in the step S47 is converted by referring to the combination type code conversion table, and the corresponding character is read from the combined font ROM (S49), and the image of each text is displayed on a TV or the like (S50).

As described above, in the Hangul caption processing method according to the present invention, 2 bytes of caption data are encoded to encode Unicode.

That is, since "a" of Hangul is AC00h by Unicode, 1AC100h including the odd parity bit is encoded.

In order to decode the caption, a full 2-byte Unicode with parity bits removed is extracted, and the combined font ROM is accessed with reference to the combination type table to be displayed on a TV or the like.

In the Hangul caption processing method according to the present invention, when the caption data transmission format is integrated with Unicode, unicoded caption data can be decoded and encoded.

It also has the benefit of reducing memory size to display each text data, since it uses a table that converts from Unicode to a combinatorial form.

Claims (2)

A method of encoding and decoding a caption data decoder having a caption data encoder and a font memory, Encoding the caption data excluding the parity bit on the caption line of the video signal to 2 Unicode bytes, Extracting Unicode caption data inputted from the video signal transmitted by caption decoding; Analyzing the extracted caption data according to a data format; Converting the analyzed data into a combination type, and reading and displaying the corresponding character in the font memory. The method according to claim 1, Wherein the data format of Unicode includes 1 bit of parity bit and 8 bits of caption data bit in the step of encoding and transmitting.