KR100371157B1 - Method for correcting error of digital vcr - Google Patents

Abstract

PURPOSE: A method for correcting an error of a digital VCR is provided to correct the error by using one inner/outer encoder/decoder, thereby reducing the size of hardware and the cost. CONSTITUTION: Random inner/outer codes are written at a code buffer. It is judged whether the written inner/outer codes are smaller than or equal to the previously inputted inner/outer codes. If so, the previously inputted inner/outer codes are read from the code buffer to be encoded or decoded before judging whether it is an end of the next code. Otherwise, the former process is repeated after passing a predetermined time.

Description

Error Correction Method of Digital VRL

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an error correction method of digital VLC using a product Reed-Solomon code. In particular, an inner code and an outer code are combined into one encoder / decoder. The present invention relates to an error correction method of digital VRL that enables error correction.

As shown in FIG. 2, the conventional digital BC error correcting apparatus receives source data of a product Reed-Solomon code output from the buffer 100, encodes the external parity, and encodes the code buffer 120. The external code encoder / decoder 110 corrects and decodes the external code outputted from the second code, and temporarily stores the internal / external code output from the external code encoder / decoder 110 and the internal code encoder / decoder 130. The code buffer 120 receives the source data of the encoded product Reed-Solomon code output from the code buffer 120, generates a product code by attaching internal parity, and outputs the product code from the recording unit 140. It consists of an internal code encoder / decoder 130 that corrects and decodes the internal code, which will be described in detail.

First, referring to the encoding process indicated by the solid line in the drawing, when the source data of the product Reed-Solomon code shown in FIG. 1 is input to the external code encoder / decoder 110 through the buffer 100, the external encoding is performed on the source data. The external code is made by adding external parity that can correct the error by executing.

Thereafter, the external code to which the external parity is added is input to the code buffer 120 and temporarily stored in one track unit, and then applied to the internal code encoder / decoder 130 to perform internal encoding, so that internal parity as shown in FIG. Is added to produce a product code having a final internal code and an external code, and is recorded on the recording medium through the recording unit 140.

On the other hand, referring to the decoding process indicated by the dotted line in the drawing, the product code output from the recording unit 140 is applied by the internal code encoder / decoder 130 to perform internal decoding to correct the error of the internal code, and then code buffer ( The output code is outputted to the 120, and the product code in which the internal code output from the code buffer 120 is corrected is input to the external code encoder / decoder 110 to perform external decoding, thereby correcting an error of the external code and finally source data. You get

This source data is audio / video data of one track in the case of digital VRC, and the internal code encoder / decoder 130 processes data before one track at the time of encoding compared to the external code encoder / decoder 110. In decoding, data after one track is processed.

In this case, however, two internal codes and two external encoders and decoders are needed to perform the error correction function of the digital VRL's product Reed-Solomon code. There was a problem.

Accordingly, the present invention has been made in view of the above problems, and is intended to perform external encoding / decoding between internal encoding / decoding using one encoder / decoder. It explains in detail.

In order to achieve the above object, the method of error correction of the digital VLC of the present invention is to write an arbitrary internal / external code (B) in the code buffer 220, and then, it is smaller than the internal / external code (A) input before. Or the first step of determining whether or not the condition is determined, and if the condition determined by the first step is satisfied, the code buffer 220 reads an internal / external code A, encodes or decodes it, and then ends the code. A second process of determining and terminating the authorization is performed, and a third process is performed again from the first process after a predetermined time (G) when the condition determined by the second process is not satisfied.

On the other hand, the error correction device of the present invention digital V-realization for realizing the method consisting of each of the above processes, by implementing a product lead-solomon code internal and external encoder / decoder in a pipelined structure, having a time difference of 1 track internal It consists of an internal / external code processing unit 210 for encoding and decoding the alternating / external code.

The present invention thus constructed will be described in detail with reference to FIGS. 3 to 5.

As shown in FIG. 3, the apparatus of the present invention has an internal / external code processor 210 capable of processing Reed-Solomon codes, and encodes and decodes internal / external codes by externally applied control signals. It is configured to perform alternately.

In the case of digital VLC, since the product code is composed of one track of video and audio data, the internal code encoding / decoding and the external code encoding / decoding should be performed for one track of data during the time of one track.

Since there is no buffer in the recording unit 230 for reading or writing data on the tape, the encoding and decoding time of the inner code is fixed, and the encoding of the outer code is performed between the encoding and the decoding of the inner / code. And decoding, at which time the processed data of the inner code and the outer code have an absolute time difference of one track.

In addition, the internal / external code processing unit 210 is implemented in a fully pipelined structure as shown in FIG. 4, which means that the processing steps of encoding and decoding are operated completely independently.

Here, stage 1 is equal to the length of the input data IN because it means data input processing, and since this has the longest processing time among the M stages, the entire internal / external code processing unit 210 processes. It's time.

Accordingly, the latency will vary depending on the input data IN, and the operation of the internal / external code processor 210 implemented as described above will be described in detail with reference to FIG.

The code buffer 220 that the internal / external code processing unit 210 continuously receives any other type of code (internal code, external code, internal code, external code, ...) and stores as many codes as the latency. In order to encode and decode the data after writing to it, the following Equation (1) must be satisfied.

Here, data B is on top of data A.

When the condition of Equation (1) is satisfied, data (A) and data (B) can be read and encoded / decoded in the code buffer 220 continuously, but if the data (A) and data (B) are If the equation (1) is not satisfied, data B can be encoded / decoded by a predetermined time G, which means that the following equation (2) must be used.

That is, between the encoding / decoding of the inner code, the outer code satisfies Equation (2) above, and the arbitrary data A and the data B are encoded by one inner / outer code processor 210. In case of decoding, the error correction can be performed by encoding / decoding the outer code between the encoding / decoding of the inner code.

As described above, the present invention also has the effect of reducing the size of hardware and consequently cost by performing encoding and decoding, that is, error correction using one internal / external code encoder / decoder.

1 is a view showing the configuration of the product Reed-Solomon code.

2 is a diagram showing an error correction apparatus of a conventional digital BC.

3 is a diagram showing an error correction apparatus of a digital V-LC of the present invention.

4 is a block diagram illustrating an internal / external code processor.

5 is a view showing an error correction method of a digital V-LC of the present invention.

*** Explanation of symbols for main parts of drawing ***

200: buffer 210: internal / external code processing unit

220: code buffer 230: recording unit

Claims (1)

A first process of writing an arbitrary internal / external code B in the code buffer 220 and then determining whether the internal / external code B is less than or equal to the internal / external code A previously inputted, and by the first process If the determined condition is satisfied, the code buffer 220 reads the internal / external code A, encodes or decodes it, determines whether it is the end of the code, and terminates the second process. And a third process of performing the process again from the first process after a predetermined time (G) has elapsed if the specified condition is not satisfied.