KR100606521B1 - Method and apparatus for generating error correction codes for data recorded on high density optical medium - Google Patents

Abstract

The present invention relates to a method and an apparatus for generating a data error correction code in a high density optical recording medium, comprising: a step of additionally recording N bits in bytes in an input data line having a predetermined length; Generating inner parity corresponding to the data row in which the N bits are additionally recorded; Reconstructing the generated inner parity in units of bytes; And additionally recording the reconstructed inner parity as an inner parity corresponding to a row of data having a predetermined length from which the N bits are removed, and comprising a Galois field GF (2 ** 9) for generating inner parity. By using this method, ECC blocks in a high-density DVD (HD-DVD) composed of one row of 344 bytes of original data and 18 bytes of inner parity are generated and recorded. It is a very useful invention that can be improved by more than 2 times compared to DVD).

High Density DVD, Error Correction, Inner Parity, Galois Field GF (2 ** 9), PI Codeword

Description

{Method and apparatus for generating error correction codes for data recorded on high density optical medium}             

1 and 2 show a configuration of an error correction (ECC) block in a general DVD (DVD),

FIG. 3 shows a partial configuration of an optical disc apparatus for encoding an error correction code in a high density optical recording medium according to the present invention,

4 illustrates a configuration of an error correction block in a high density optical recording medium (HD-DVD) according to the present invention.

FIG. 5 illustrates a generation process for inner parity added by a method for generating a data error correction code in a high density optical recording medium according to the present invention.

6 illustrates a data modulation and synchronization pattern addition recording process for an error correction sector in a high density optical recording medium according to the present invention.

※ Explanation of code for main part of drawing                 

10 RAM control unit 11 ECC buffer unit

12: outer parity encoder unit 13: additional bit generation unit

14: inner parity encoder section 15: additional bit removing section

16: data modulator 17: synchronization generator

The present invention relates to a method for generating a data error correction code in a high density optical recording medium for correcting an error of digital data read out from a high density optical recording medium such as a high density digital versatile disc (HD-DVD). Relates to a device.

First of all, the optical recording medium has a recording capacity of about 4.7 Gbytes as it has evolved from a recording capacity of about 600 Mbytes that could be stored on a compact disc (CD) to a digital multifunction disk (DVD). With DVD, you can play MPEG-2 (Moving Picture Expert Group) picture quality and AC-3 (Audio Coding) sound effects continuously for about 135 minutes.

On the other hand, with the commercialization of high-definition TV (HD-TV) in recent years, high-definition video of the HD-TV level is required, in order to meet the high-definition demand of the HD-TV level, the recording capacity of more data The development of high-density DVD (HD-DVD) having a need for.

The high-density DVD has a recording capacity of about 15 Gbytes, which is about 3.2 times larger than the general DVD's recording capacity of about 4.7 Gbytes, so that the high-definition video corresponding to the HD-TV level can be reproduced for about 135 minutes.                         

Accordingly, in the high-density DVD (HD-DVD), the pit length of the data actually recorded is reduced, so that the data recording density on the disc having the same size size as the general DVD can be recorded and stored with high density. In the case where small scratches or foreign matters are attached to the high density DVD, the amount of data loss caused thereby increases at least twice as large as that of the DVD. There is an urgent need for an improved method of error correction (ECC) to compensate for data loss.

As shown in FIG. 1, an error correction (ECC) block applied to a general DVD (DVD) has one row of 172 bytes of original data and 10 bytes of inner parity. The error correction block is composed of 192 rows consisting of a single block and 16 rows consisting of an outer parity. The error correction block configured as described above is a Reed Solomon code. RS (182, 172, 11) and RS (208, 192, 17), and when the row interleave (Row Interleave), as shown in Figure 2, 16 columns consisting of outer parity in each of 16 unit sectors It is an error correction block that is interpolated line by line.

On the other hand, in the error correction block configured as described above, the theoretically correctable burst error, that is, the maximum correctable length of the burst error caused by scratches or foreign matters is determined by the inner parity and the outer parity. Only 10-byte inner parity can be corrected by a burst error of up to 5 bytes. If more than 5 bytes of error occur in each row, the entire row cannot be corrected. Since error correction operations using outer parity have to be performed, there is a problem in that error correction is delayed and high-speed processing is impossible. In particular, when such error correction failure exceeds 16 rows in one error correction block. In this case, the entire error correction block is processed as error correction disabled.

Therefore, if the above-described error correction method is applied to a high-density DVD (HD-DVD), which has a recording density higher than about 3 times higher than that of a DVD, the error correction capability is relatively reduced. The problem is that the data loss caused by scratches or foreign matters is greatly increased. Also, in order to improve error correction capability, when additional parity is additionally recorded as described above, the recording capacity of the original data to be actually recorded is increased. There is a problem that is significantly reduced.

Accordingly, the present invention has been made to solve the above problems, and the recording amount of the parity additionally recorded for error correction of digital data read out from a high density optical recording medium such as a high density DVD (HD-DVD) is generally used. SUMMARY OF THE INVENTION An object of the present invention is to provide a method and apparatus for generating a data error correction code in a high-density optical recording medium which can be improved by more than two times while maintaining the same.

A data error correction code generating method in a high density optical recording medium according to the present invention for achieving the above object comprises the steps of additionally recording N bits in bytes in an input data row having a predetermined length; Generating inner parity corresponding to the data row in which the N bits are additionally recorded; Reconstructing the generated inner parity in units of bytes; And additionally recording the reconstructed inner parity as an inner parity corresponding to a row of data having a predetermined length from which the N bits are removed.

In addition, the apparatus for generating a data error correction code in a high density optical recording medium according to the present invention comprises: additional means for additionally recording N bits in bytes in an input data line having a predetermined length; Parity generating means for generating inner parity corresponding to the row of data in which the N bits are additionally recorded, and reconstructing the generated inner parity in units of bytes; Removing means for extracting and removing the N bits additionally recorded by the adding means; And data structuring means for adding the reconstructed inner parity to a row of data of a predetermined length from which the N bits are removed.

Hereinafter, a preferred embodiment of a method and apparatus for generating a data error correction code in a high density optical recording medium according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 3 shows a partial configuration of an optical disc apparatus for encoding an error correction block in a high density optical recording medium according to the present invention. In the optical disc apparatus, digital data to be recorded on a high density DVD (HD-DVD) ECC buffer unit 11 for temporarily storing the; An outer parity encoder unit 12 encoding outer parity for error correction of the digital data; An inner parity encoder unit 14 for encoding inner parity for error correction of the digital data; An append bit generator 13 for adding one bit to a source symbol that is eight bits of digital data and converting the result into a nine-bit data symbol; An additional bit removing unit (15) which removes one bit added to the nine-bit data symbol and converts it into an eight-bit data symbol; A RAM control unit 10 for controlling a data interface between the configuration means; A data modulator (16) for modulating the encoded error correction block to which the encoded outer parity and inner parity are added to data suitable for recording; And a synchronization generator 17 for generating and additionally recording a synchronization pattern in the modulated data.

Accordingly, the outer parity encoder unit 12 uses the same Galois (Galois) format for encoding an external parity in a general DVD on a source symbol that is 8 bits of digital data input through the RAM control unit 10. Field, GF (2 ** 8), to generate an outer parity for the 8-bit source symbol, whereas in the inner parity encoder unit 14, the additional bit generator 13 Unlike the general DVD, the 9-bit data symbol that is converted and output is generated using the Galois field GF (2 ** 9) to generate inner parity for the 9-bit source symbol. At this time, the inner parity generated is 18 bytes, and the digital data to which the 18-byte inner parity is added is an ECC block data row in general DVD. The inner parity generation method for error correction in high density DVD, which is 344 bytes doubled in bytes, generates 18 bytes of inner parity for a row of data of 344 bytes.

First, in the method for generating a data error correction code in a high density optical recording medium according to the present invention, one row includes 344 bytes having twice the size of 172 bytes, which is one row unit data composed of a general DVD error correction block. For example, as shown in FIG. 5, bytes of source data of 344 bytes (B _{i, 0} , B _{i, 1} .... B _{i, 343} ) corresponding to the i th column, that is, 8 The source symbol of the bit is converted into a 9-bit data symbol by the additional bit generating unit 13 and input to the inner parity encoder unit 14.

Accordingly, the inner parity encoder unit 14 generates a PI codeword in which 18 bytes of inner parity is added to 344 bytes. The 18 bytes of inner parity have a recording size of 9 bits. It corresponds to 16 PI symbols (P (1,0), P (1,1), ...., P (1,15)), which are encoded by the Galois field, GF (2 ** 9). 16 PI symbols with 9-bit write size are reconstructed into 18 PI symbols with 8-bit write size suitable for Galois field GF (2 ** 8), resulting in 344 bytes (i.e. 18 bytes of parity are additionally recorded in the source data row of B _{i, 0} , B _{i, 1} .... B _{i, 343} ).

On the other hand, the additional bit removing unit 15 removes an additional bit of 1 bit additionally recorded in the 9-bit data symbol, and outputs an 8-bit data symbol to the RAM control unit 10. The controller 10 outputs the error correction block to which the parity and inner parity are added for error correction to the data modulator 16.

Accordingly, the data modulator 16 modulates the error correction block into data suitable for recording, and the sync pattern generator 17 generates a sync pattern to the modulated data and additionally records it. In the data modulation and synchronization pattern addition recording process, as shown in FIG. 6, an error correction block in a high density DVD having a size of 362 bytes X 208 bytes is row interleaved to record 362 bytes X 13 bytes. An error correction block of high density DVD consisting of 16 blocks having a size is formed, and any one block having a recording size of 362 bytes X 13 bytes is stored in a typical unit sector having a recording size of 2048 bytes. Since the recording size is approximately twice as large, as shown in FIG. 6, each block is divided into two ECC sectors.

Therefore, one ECC block in the high-density DVD (HD-DVD) according to the present invention has 192 bytes of original data of 344 bytes and 18 bytes of inner parity as shown in FIG. 4. Since 16 rows consisting of two rows and outer parity are constituted by one ECC block, as shown in FIG. 1, 192 bytes of original data and 10 bytes of inner parity consist of one row. Compared to a general DVD (DVD), which consists of one row and sixteen rows consisting of outer parity with one ECC block, the burst error correction capability can be improved by more than two times. The PO codeword at is denoted by the Reed Solomon code 'RS (208,192,17) in GF (2 ** 8)', and the PI codeword is the Reed Solomon code 'RS (360,344,17) in GF (2 *). * 9) '.

As mentioned above, preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

The method and apparatus for generating a data error correction code in a high density optical recording medium according to the present invention as described above, by using the Galois field GF (2 ** 9) for generating inner parity, 344 bytes of original data and 18 bytes Since the inner parity of a single-row high-definition DVD (HD-DVD) ECC block is generated and recorded, the error correction ability by the inner parity can be more than doubled compared to the general DVD (DVD) It is a very useful invention.

Claims (8)

1 step of additionally writing N bits in bytes in an input row of data having a predetermined length; Generating inner parity corresponding to the data row in which the N bits are additionally recorded; Reconstructing the generated inner parity in units of bytes; And And additionally recording the reconstructed inner parity as an inner parity corresponding to a row of data of a predetermined length from which the N bits are removed. The method of claim 1, And the data row of the predetermined length is a data row of 344 bytes corresponding to 344 source symbols having a recording size of 8 bits. The method of claim 2, The method of claim 1, wherein one bit is added to the eight-bit source symbol and converted into a nine-bit data symbol. The method of claim 3, wherein In the second step, 16 inner parities having a 9-bit recording size corresponding to the 9-bit data symbol are generated by using the Galois field GF (2 ** 9). To generate a data error correction code. The method of claim 4, wherein And the third step is to reconstruct 16 inner parities having the recording size of 9 bits into 18 inner parities having the recording size of 8 bits. The method of claim 5, In step 4, the reconstructed 18 inner parity data is additionally recorded as an inner parity of 18 bytes corresponding to 344 data symbols having the 8-bit recording size. How to generate correction code. Additional means for additionally recording N bits in bytes in an input row of data having a predetermined length; Parity generating means for generating inner parity corresponding to the row of data in which the N bits are additionally recorded, and reconstructing the generated inner parity in units of bytes; Removing means for extracting and removing the N bits additionally recorded by the adding means; And And data constituting means for adding the reconstructed inner parity to a row of data having a predetermined length from which the N bits are removed. The method of claim 7, wherein The parity generating means generates an inner parity symbol having a 9-bit recording size using the Galois field GF (2 ** 9), and then reconstructs the 8-bit recording size into an inner parity symbol. Apparatus for generating data error correction code in high density optical record carrier,

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