KR20040067104A - Method for encoding and decoding error correction block in high density optical disc - Google Patents

Abstract

PURPOSE: A method for encoding and decoding an ECC(Error Correction Code) block of a high-density optical disk is provided to declare an eraser if a burst error which is continuous in vertical or horizontal direction exists in an ECC block, thereby minimizing an ECC error and simplifying an encoding/decoding process. CONSTITUTION: A system generates user data blocks having a predetermined recording size. The system generates a PO(Parity Outer) for a vertical data string among the user data blocks, and records at least more than one indicator flag for separately declaring an eraser for a horizontal data string at certain intervals within the user data blocks. The indicator flag is generated as many as the predetermined intervals as more than one preset 1 byte, in order to declare an eraser of information data included within the predetermined intervals.

Description

Method for encoding and decoding error correction block in high density optical disc

The present invention relates to an error correction block encoding and decoding method of a high density optical disc which is optimal for a next generation high density optical disc having a higher recording density than a DVD.

An error correction code (ECC) suitable for a general DVD format is a Read Solomon Code (RS Code). The error correction in the DVD is RS (182, 172, 11). Interleaved with the configured inner code and the outer code consisting of RS (192, 208, 17), up to five errors can be corrected in the inner, and up to eight errors can be corrected in the outer. .

On the other hand, as shown in Figure 1, one error correction block (ECC Block), each of 16 outer parity (PO: Parity Outer per vertical) to the scrambled '172 X 192' bytes of User Data (User Data) ) Is added, and a code word of '182 X 208' bytes to which 10 inner parity inners (PI) are added per horizontal direction is included.

In addition, as shown in FIG. 2, the codewords of the error correction block have a configuration scheme in which 16 outer parities are interleaved to 12 inner codewords, and a total of 208 inner codewords are all 16 sectors. 1 sector consists of 13 inner codewords, so that 1 error correction block is 16 sectors, 1 sector is 13 codewords, and 1 inner codeword is 182 bytes. .

However, when a burst error continuous in the lateral direction or the longitudinal direction exists in the error correction block of the DVD format configured as described above, the error correction capability is extremely degraded, so that normal user data cannot be restored. In particular, in the case of a next generation high density optical disc having a higher recording density than a DVD, a fatal error correction error due to a burst error occurs.

Accordingly, the present invention was created to solve the above problems, and has a burst error continuous in the transverse direction or the longitudinal direction in an error correction block (ECC Block) of a next-generation high-density optical disc having a higher recording density than a DVD. In case of Burst Error, Eraser can be declared to minimize error correction errors due to burst errors, and to encode and decode error correction blocks on high density optical discs to simplify encoding and decoding operations. The purpose is to provide a method.

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

3 conceptually illustrates an encoder to which an error correction block encoding method of a high density optical disc according to the present invention is applied;

Fig. 4 shows the construction of the first embodiment of the error correction block of the high density optical disc according to the present invention.

5 conceptually illustrates a decoder to which an error correction block decoding method of a high density optical disc according to the present invention is applied;

6 and 7 show a specific embodiment of an error correction block of a high density optical disc encoded and decoded according to the present invention.

※ Explanation of code for main part of drawing

10: data block generation unit 11: PO generation unit

12: IF generator 20: IF detector

21: PO calculation unit 22: Data block generation unit

100: encoder 200: decoder

The error correction block encoding method of the high density optical disc according to the present invention for achieving the above object comprises the steps of: generating a user data block of a predetermined recording size; and the outer parity of the data column in the longitudinal direction of the user data block; And generating at least one indicator flag in the user data block so as to generate an erasure declaration for the data column in the horizontal direction and to declare the eraser declaration at predetermined intervals. ,

In addition, an error correction block decoding method of a high density optical disc according to the present invention includes: a first step of detecting a plurality of indicator flags recorded in a data column in a horizontal direction among the error correction blocks; Declaring an eraser when an error occurrence position in which the value of the detected indicator flag is different from a preset fixed value occurs continuously in the indicator flag recorded at a predetermined interval in the data column; And performing an error correction operation on a longitudinal data string using the outer parity of the error correction block, and selectively declaring the error correction impossible with reference to the position information where the eraser is declared. It is characterized by.

Hereinafter, a preferred embodiment of an error correction block encoding and decoding method of a high density optical disc according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 conceptually illustrates an encoder to which an error correction block encoding method of a high density optical disc according to the present invention is applied, wherein user data input to the encoder 100 has a predetermined recording size. A data block generator 10 for generating a data block, a PO generator 11 for generating outer parity for the data block, and an indicator flag for erasing the data block. An IF generator 12 for generating an indicator flag may be included.

On the other hand, in the encoder 100, as shown in Figure 4, by encoding the user data to generate an error correction block (ECC Block) having a recording size of 'N ₁ XN ₂ ' bytes, the error correction The code rate of the block is determined by subtracting the indicator flags IF for the erasure declaration from the user data block of 'K ₁ X (K ₂ XL)' bytes, and then selecting the outer parity PO of the 'OP' bytes and a predetermined value. Divided by the total write size of the byte 'N ₁ XN ₂ ' containing the indicator flags (IF) of the byte, ie the code of (((K ₁ X (K ₂ XL)-IF) / (N ₁ XN ₂ ) ' Becomes the rate.

The maximum error correction capability of the error correction block is 'N ₂ X OP' bytes. The eraser declaration for the error correction block is declared by the indicator flag, and the error correction block is included in an outer code consisting of RS (N ₁ , K ₁ , N ₁ -K ₁ +1). The error is corrected by

In the encoder 100, K ₁ bytes are generated in the longitudinal direction as described above, and (K ₂ XL) bytes are generated in the horizontal direction to form a data block, and then RS (N ₁ , K ₁ , N ₁ -K ₁ +1) as many as the number of _{'OP (= N 1 -K 1} )' byte is generated by the outer parity (PO), 4, is set in advance as K ₂ bytes every The operation of generating the indicator flags IF of one byte to which a fixed value is assigned, for example, a value of all zeros, is repeated L times.

Meanwhile, the indicator flag has only error detection capability without error correction capability, and the number of bytes of K ₂ may be variably adjusted for code rate adjustment, and the recording size of the 'N ₁ XN ₂ ' byte The final error correction block having? Is read sequentially based on the data stream in the lateral direction.

FIG. 5 conceptually illustrates a decoder to which an error correction block decoding method of a high-density optical disc according to the present invention is applied. The decoder 200 stores a data string read out based on a horizontal data stream. An IF detection unit 20 for receiving an error correction block and declaring an erasure after performing an error detection operation by using the indicator flag IF recorded in the horizontal data stream at predetermined intervals. And a PO calculation unit 21 for performing an erasure decoding operation using the position information and the outer parity PO in which the erasure is declared, and an error corrected user data block by the erasure decoding operation. The data block generator 22 may be included.

On the other hand, the decoder 200 detects the value of the indicator flag recorded at intervals of K ₂ bytes when the horizontal data string is read out from the error correction block configured as described above with reference to FIG. 4. When the indicator flag detection operation is repeated L times for the horizontal data string and the value of the indicator flag is not zero, an error is detected in the corresponding data block. When the value of the indicator flag is zero, it is determined that no error is detected in the data block.

As a result of the determination, when the error occurrence position is continuously generated in the indicator flag included in the data string on the same line, the eraser is declared for the data string of the predetermined interval which is currently decoded by the indicator flag detection operation.

In addition, the decoder 200 performs erasure decoding on an outer code by using the erasure position information obtained through the above process, and the erasure decoding using the outer code is' (erase declaration). Number) + (2 X number of random errors) < = (N ₁ -K ₁ ) 'Only if the condition is satisfied, otherwise, error correction is declared and decoded as it is.

6 and 7 illustrate a specific embodiment of an error correction block of a high density optical disc that is encoded and decoded according to the present invention, and the encoder 100 configured and operated as described above with reference to FIGS. 3 and 4. The error correction block generated by) may have a write size of '246 X 312' bytes, wherein the code rate of the error correction block is '0.854', and the data block size is '65792' bytes. do.

The maximum error correction capability is '9984' bytes, and the error correction block is error corrected by an outer code consisting of RSs 246, 214, and 33. In the encoder 100, 214 bytes in the lateral direction, 308 bytes in the lateral direction are generated, and a data block is constructed. The outer code of RS 246, 214, 33 is 32 bytes of outer parity PO corresponding to 214 bytes. Will generate

In addition, the encoder 100 allocates all of the indicator flag (IF) bytes of one byte to '0' and repeats the recording four times in the horizontal direction. The '246 X 312' bytes generated by the above process are repeated. The error correction block of the write size is read out sequentially based on the horizontal data stream.

On the other hand, in the decoder 200, when the data stream in the horizontal direction is read out from the error correction block, the value of the previous / post indicator flag existing at every 78 (= 77 + 1) byte interval is set in advance. It is detected to have a fixed value, that is, a value of '0'.

For example, as shown in Fig. 7, an error occurrence position at which an indicator flag other than a value of '0' is detected by an indicator flag detection operation on a data column in the horizontal direction is included in the data column on the same line. In the case of successive occurrences of the included indicator flag, an eraser is declared for the information block between the indicator flags, and if the error occurrence position occurs solely in any one of the indicator flags, It will not be declared.

Meanwhile, the decoder 200 performs the erasure decoding operation by the outer code of the RS 246, 214, and 33 by using the position information where the eraser is declared through the above process. The erasure decoding operation is performed only when the condition '(number of erasure declarations) + (number of 2 X random errors) ≤ 32' is satisfied. Otherwise, error correction is declared.

Therefore, since only the value of the indicator flag is detected and confirmed, and the erase declaration is made, the decoding operation becomes simpler, and the decoding and erasure declaration on a block basis makes the burst error stronger and increases the outer parity. This can further improve the maximum error correction capability.

For reference, the indicator flag may be assigned to another fixed value other than '0', and may be generated and recorded with a recording size larger or smaller than the one byte recording size.

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose 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 error correction block encoding and decoding method of the high-density optical disc according to the present invention, which is constructed and configured as described above, generates a user data block having a predetermined recording size when performing the encoding operation of the error correction block. In addition to generating outer parity for the data column in the directional direction, an indicator flag having a fixed value for declaring the erasure declaration for the lateral data column at predetermined intervals is included and recorded in the user data block. When an error correction block decoding operation is performed, the error flag is declared with reference to whether an error occurs in the indicator flag, so that a burst error that is continuous in the transverse direction or the longitudinal direction exists in the error correction block of the next generation high density optical disk with high recording density. Error occurs due to the burst error. Is able to be minimized, will be very useful inventors also because of being able to declare a laser using only the flag indicator, it can further shorten the time required for the decoding operation.

Claims (8)

Generating a user data block having a predetermined recording size; And In the user data block, an indicator flag for generating outer parity with respect to a longitudinal data string and declaring an erasure declaration with respect to a horizontal data string at predetermined intervals may be used. An error correction block encoding method of a high density optical disc, characterized in that it comprises at least one step of recording at least one. The method of claim 1, The outer parity, the number of bytes in the longitudinal recording size (N ₁ XN ₂₎ of the entire error correction block (N ₁₎ and a number of bytes in the record size of the longitudinal direction of the user data block, which is determined by the (K ₁₎ An error correction block encoding method of a high density optical disc, characterized in that generated by the number of 'N ₁ -K ₁ ' bytes by 'RS (N ₁ , K ₁ , N ₁ -K ₁ +1)'. The method of claim 1, The indicator flag is a high density, characterized in that generated by the number of the predetermined interval, a fixed value of 1 byte or more, which is set in advance for the erasure declaration of information data included in the predetermined interval among the horizontal data streams. Error correction block encoding method of optical disc. The method of claim 3, wherein And all of the indicator flags have a write size of one byte to which a value of '0' is assigned. Detecting a plurality of indicator flags recorded in a horizontal data column among the error correction blocks; Declaring an eraser when an error occurrence position in which the value of the detected indicator flag is different from a preset fixed value occurs continuously in the indicator flag recorded at a predetermined interval in the data column; And Performing an error correction operation on a longitudinal data string using the outer parity of the error correction block, and selectively declaring the error correction impossible with reference to the position information where the eraser is declared. An error correction block decoding method for a high density optical disc, characterized by the above-mentioned. The method of claim 5, And said step 2, if the detected error occurrence position occurs solely on an indicator flag recorded at predetermined intervals in the data stream, the eraser does not declare an eraser. The method of claim 5, In step 3, an error correction operation is performed on the data strings in the longitudinal direction using the outer parity of the error correction block, wherein '(Eraser declaration number) + (2 X random error number) ≤ (Outer direction of the longitudinal direction). Parity byte count " ", wherein the error correction operation is performed. The method of claim 5, In step 3, an error correction operation is performed on the data strings in the longitudinal direction using the outer parity of the error correction block, wherein '(Eraser declaration number) + (2 X random error number) ≤ (Outer direction of the longitudinal direction). And error correction impossibility if the condition of parity bytes) is not satisfied.