JP2004140816A - Error correction method and reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an error correction method for improving error correction capability, and to provide an information-reproducing apparatus. <P>SOLUTION: When an error is detected in primary symbols contained in primary code data with high redundancy or a synchronous data is not able to detect, the primary symbols by which the error was detected, or the second symbols arranged near the synchronous data which was not able to be detected is decided as being an erasures. Also, when the synchronous data are in misregistered and are detected, symbols contained in coded words or symbols, arranged before the synchronous data are decided as being erasures, it is decided that the symbols contained in code words or symbols arranged more back than the synchronous data are not erasures. Also, when the synchronous data which were not able to detect and synchronous data which were detected and misregistered are consecutive, symbols contained in all coded words between the consecutive synchronous data are decided as being erasures. <P>COPYRIGHT: (C)2004,JPO

Description

According to the present invention, the first symbol constituting the first coded data which is error-correction-encoded using the first error-correction code, or the synchronization data for synchronizing the data, or the first symbol A composite in which at least one second symbol constituting second coded data error-correction-encoded using a second error-correction code having lower redundancy than the first error-correction code is arranged between the synchronization data and the first data. The present invention relates to an error correction method for encoded data and a reproducing apparatus.

In recent years, optical disks and the like, which are typical recording media, have been increasing in density and capacity in recent years, and securing reliability has become an important issue. Therefore, various error correction methods for correcting an error caused by a defect of a recording medium or dust or a flaw attached to the recording medium have been considered (for example, see Patent Documents 1 and 2).
US Pat. No. 6,367,049B1 (pages 5-6, FIG. 5) Japanese Unexamined Patent Publication No. 2001-515542 (pages 10-11, FIG. 2)

FIG. 2 shows composite encoded data 203 as an example of composite encoded data. FIG. 2 further shows the first encoded data 201 and the second encoded data 202. The error correction method will be described with reference to FIG.

The composite coded data 203 includes first coded data 206, 207, 208, 209, 210, and 211 that have been subjected to error correction coding using the first error correction code, and has lower redundancy than the first error correction code. Synchronization between the second encoded data 212, 213, 214, 215, 216, 217, 218 and 219, which has been error-corrected using the second error-correcting code, and the first encoded data and the second encoded data. And synchronization data 204 and 205 to be taken.

The first encoded data 201 is error-correction-coded using 24 first error-correction codes. The second encoded data 202 is error-correction-coded using 304 second error-correction codes. Each of the first encoded data 206 to 211 is data obtained by dividing the first encoded data 201 into a plurality. Each of the second encoded data 212 to 219 is data obtained by dividing the second encoded data 202 into a plurality. The first encoded data 206 to 211 include a plurality of first symbols, and the second encoded data 212 to 219 include a plurality of second symbols.

少 な く と も At least one of the plurality of first encoded data is arranged between adjacent ones of the plurality of synchronous data. For example, as shown in FIG. 2, first encoded data 206 to 208 including a first symbol are arranged between synchronous data 204 and 205 adjacent to each other. Accordingly, at least one first symbol is arranged between the synchronization data adjacent to each other.

少 な く と も At least one second encoded data is arranged between the synchronous data and the first encoded data adjacent to each other. Also, at least one second encoded data is arranged between two adjacent first encoded data. For example, as shown in FIG. 2, the second encoded data 212 is arranged between the synchronization data 204 and the first encoded data 206, and the second encoded data 212 is arranged between the first encoded data 206 and the first encoded data 207. , The second encoded data 213 is arranged. Accordingly, at least one second symbol is arranged between the synchronization data and the first symbol and between the first symbol and the first symbol. In FIG. 2, 38 second symbols are arranged between two first symbols adjacent to each other along the recording direction 220. Further, 38 second symbols are arranged between the synchronization data and the first symbol adjacent to each other along the recording direction 220.

Note that the first encoded data 201 and the second encoded data 202 are respectively separated from the first encoded data so that the local error area on the recording medium is dispersed in the configuration of the composite encoded data 203. 206 to 211 and the second encoded data 212 to 219 are divided and arranged (hereinafter, such a process of distributing and arranging the data is referred to as interleaving).

複合 The composite encoded data 203 described above is sequentially recorded on the recording medium along the recording direction 220.

The first error correction code is a Reed-Solomon code on an extended field obtained by adding a root α of a primitive polynomial (Equation 1) to a prime field GF (2) having a code length of 62 bytes, information number of 30 bytes, and parity of 32 bytes. The second error correction code is a Reed-Solomon on an extended field obtained by adding a root α of a primitive polynomial (Equation 1) to a prime field GF (2) having a code length of 248 bytes, information number of 216 bytes, and parity of 32 bytes. Sign.

　図３に、複合符号化データ２０３の誤り訂正方法を示すフローチャート３０を示す。

FIG. 3 shows a flowchart 30 illustrating an error correction method for the composite encoded data 203.

In step 301, the first encoded data 201 is corrected. At this time, the first encoded data 201 has been subjected to deinterleaving, which is the inverse transform of interleaving.

In step 302, erasure position information indicating the erasure position in the second encoded data 202 is generated. For example, there are the following three methods for generating the erasure position information.

FIGS. 4 to 6 are diagrams illustrating the state of the synchronization data or the first symbol when the second encoded data is determined to be lost. 4 to 6 indicate that synchronous data could not be detected or that the first symbol was incorrect, and ○ indicates that synchronous data could be detected or that the first symbol was correct. Each of the data shown in FIGS. 4 to 6 is a part of one row of data (or part of data of a plurality of rows) of the composite coded data 203 arranged in a matrix along the recording direction. Show.

In the first method, as shown in FIG. 4, the detection states of synchronous data 401 and 402 adjacent to each other along the recording direction 404 (the synchronous data 401 and 402 may be the first symbol) are both x. In this case, the second encoded data 403 during that time is determined to be lost, and lost position information indicating the determination result is generated.

In the second method, as shown in FIG. 5, the state of three pieces of synchronous data 501 to 503 that are continuous along the recording direction 506 (the synchronous data 501 to 503 may be the first symbol) is XX. If the result is x, the second encoded data 504 and 505 between the synchronization data 501 to 503 are determined to be lost, and lost position information indicating the determination result is generated.

In the third method, as shown in FIG. 6, three or more consecutive synchronous data 601 and 605 (the synchronous data 601 and 605 may be the first symbol) are adjacent along the recording direction 610. When the state of the first symbols 602 to 604 is x, the second encoded data 606 arranged between the first symbol 602 and the synchronization data 601 (the state is ○), and the first symbol 604 A method of determining the second encoded data 606 to 609 including the second encoded data 609 arranged between the synchronous data 605 (the state is "o") as erasure and generating erasure position information indicating the determination result It is.

{Circle around (3)} In step 303 (FIG. 3), the second encoded data is subjected to erasure error correction within the range shown in (Equation 2) using the erasure position information generated in step 302.

　ここで、εは消失位置の数で、νは消失以外の誤りの数である。

Here, ε is the number of erasure positions, and ν is the number of errors other than erasure.

However, in the method of generating the erasure position described above, the second encoded data may not be able to be corrected. FIG. 7 shows an example of an error pattern in which the second encoded data cannot be corrected. FIG. 7 is a diagram showing a part of the composite encoded data 203 in an enlarged manner.

Data 701 to 703 are first encoded data or synchronous data. Data 704 to 709 are partial data of the second encoded data arranged near the data 702. In each position of ○ and × in FIG. 7, partial synchronization data of the synchronization data, any one of the first symbol and the second symbol is arranged. In the data 701 to 703, x indicates that synchronous data could not be detected or the first symbol was incorrect, and ○ indicates that synchronous data could be detected or the first symbol was correct. In the data 704 to 709, X indicates that the read second symbol is incorrect, and the other portion indicates that the read second symbol is correct.

と す る Assume that an error as shown in FIG. 7 has occurred. In the above method of generating the erasure position information, all of the erroneous second symbols are not determined to be erasures. Since the second encoded data is subjected to erasure error correction within the range shown in (Equation 2), only 16 non-erasure errors can be corrected. Therefore, an error in the pattern as shown in FIG. 7 cannot be corrected.

{Circle around (2)} In the above-described method for generating the erasure position information, the state determination results of the synchronous data used when generating the erasure position information are two cases in which the detection was successful and the detection was not possible. If the sync data is detected with a shift, the symbol positioned before the sync data detected with a shift is likely to be erroneous, and the symbol positioned after the sync data detected with a shift is correctly reproduced. Probability is high. This is because the synchronization deviation is corrected by the reproducing device, and the symbols located later are read out after the synchronization is corrected.

In the case where the synchronization data state determination result is two cases, that is, the case where the synchronization data was detected and the case where the synchronization data could not be detected, if it is determined that the synchronization data that was detected with a deviation is detected, the synchronization data before the deviation is detected. May not be determined to be lost despite the fact that the symbol located at is incorrect, and the incorrect symbol may not be corrected. Further, if it is determined that the synchronous data detected shifted is not detected, the correct symbol located after the synchronous data detected shifted is also determined to be lost, the number of lost positions increases, and correction becomes impossible. There are cases.

In view of the above problems, the present invention generates erasure position information using a result of error correction of first encoded data or a result of detection of synchronous data, and performs erasure error correction of second encoded data using the erasure position information. It is an object of the present invention to provide an error correction method effective for performing the method and a reproducing apparatus for executing the error correction method.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The encoded first encoded data, and the second encoded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. At least one of the symbols is arranged, and the plurality of first symbols include an N (N is an integer) first symbol, an (N + 1) th first symbol, and an (N + 2) th first symbol. , The above playback method Reading the composite encoded data from the recording medium and outputting the first encoded data and the second encoded data; performing an error correction on the first encoded data; Error position information generating step for generating error position information indicating an error position of encoded data; and erasure position information generating step for generating erasure position information indicating an erasure position of the second encoded data based on the error position information. And an erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information, wherein the erasure position information generation step includes the Nth first symbol and the (N + 2) th If no error is detected in one symbol and the error position information indicates that an error has been detected in the (N + 1) th first symbol, the (N + 1) th symbol Comprises of determining that at least one loss of a plurality of second symbols arranged adjacent to the first symbol, the objects can be achieved.

The erasure position information generating step includes detecting that no error is detected in the N-th first symbol and the (N + 2) -th first symbol, and that the error is detected in the (N + 1) -th first symbol. When the information indicates, the information is arranged adjacent to the (N + 1) th first symbol of at least one second symbol arranged between the (N) th first symbol and the (N + 1) th first symbol. The at least one second symbol is determined to be lost, and the (N + 1) -th of the at least one second symbol arranged between the (N + 1) -th first symbol and the (N + 2) -th first symbol is determined. The method may further include determining that at least one second symbol arranged adjacent to one symbol is lost.

The erasure position information generating step includes, when the error position information indicates that an error has been detected in both of the two first symbols adjacent to each other, the two first symbols in which the error has been detected. The method may further include the step of determining that all the second symbols arranged in between are eliminated.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The first coded data and the second coded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. At least two of the symbols are arranged, wherein the reproducing method reads the composite encoded data from the recording medium and outputs the first encoded data and the second encoded data; An error position information generating step of performing error correction on the first encoded data and generating error position information indicating an error position of the first encoded data; and An erasure position information generating step of generating erasure position information indicating an erasure position; and an erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information. When the error position information indicates that the first symbol in which no error is detected and the first symbol in which the error is detected are adjacent, the first symbol and the first symbol in which no error is detected are included. Among the at least two second symbols arranged between the first symbol where the error is detected and the small symbol arranged adjacent to the first symbol where the error is detected. Determining that at least one second symbol is an erasure, and determining that at least one second symbol arranged adjacent to the first symbol in which the error has not been detected is not an erasure, The above object is achieved.

The erasure position information generating step includes, when the error position information indicates that an error has been detected in both of the two first symbols adjacent to each other, the two first symbols in which the error has been detected. The method may further include the step of determining that all the second symbols arranged in between are eliminated.

A reproduction method according to the present invention is a reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and error-correction encoded data are recorded, wherein the encoded data includes a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the plurality of synchronization data is an N-th (N is an integer) Wherein the reproducing method includes: reading the plurality of synchronous data and the encoded data from the recording medium; and reading the plurality of synchronous data and the encoded data from the recording medium. A synchronization detection information generating step of detecting a state of the synchronization data and generating synchronization detection information indicating the detection result; and the coded data based on the synchronization detection information. An erasure position information generating step of generating erasure position information indicating an erasure position; and an erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information. , The Nth synchronization data and the (N + 2) th synchronization data are detected, and if the synchronization detection information indicates that the (N + 1) th synchronization data has not been detected, the Nth synchronization data is adjacent to the (N + 1) th synchronization data. And determining that at least one of the plurality of arranged symbols is lost, thereby achieving the object described above.

In the erasure position information generating step, the Nth synchronization data and the (N + 2) th synchronization data are detected, and if the synchronization detection information indicates that the (N + 1) th synchronization data is not detected, At least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is determined to be lost. Determining at least one symbol arranged adjacent to the (N + 1) th synchronization data among the at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data as erasure; It may further include.

The lost position information generating step is arranged between the two undetected synchronization data when the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected. The method may further include the step of determining that all the symbols have been erased.

A reproduction method according to the present invention is a reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and error-correction encoded data are recorded, wherein the encoded data includes a plurality of symbols. Wherein at least two of the plurality of symbols are arranged between adjacent ones of the plurality of synchronization data, and the reproducing method comprises the steps of: A reading step of reading the coded data, a synchronization detection information generating step of detecting a state of the plurality of synchronization data, and generating synchronization detection information indicating the detection result; and Erasure position information generating step of generating erasure position information indicating an erasure position of encoded data; Erasure error correction step of performing correction, wherein the erasure position information generation step includes the step of, when the synchronization detection information indicates that synchronization data adjacent to the detected synchronization data has not been detected, At least one of the at least two symbols arranged between the detected synchronization data and the undetected synchronization data, which is arranged adjacent to the undetected synchronization data, is determined to be lost. , Determining that at least one symbol arranged adjacent to the detected synchronization data is not an erasure, thereby achieving the object.

The lost position information generating step is arranged between the two undetected synchronization data when the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected. The method may further include the step of determining that all the symbols have been erased.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A step of reading the composite encoded data and outputting the first encoded data, the second encoded data, and the plurality of synchronization data; detecting a state of the plurality of synchronization data; A synchronization detection information generating step of generating synchronization detection information indicating error detection; and an error position information generating step of performing error correction on the first encoded data and generating error position information indicating an error position of the first encoded data. An erasure position information generating step for generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; and performing the second encoding based on the erasure position information. An erasure error correction step of performing erasure error correction of data, wherein the erasure position information generation step includes an erasure error correction step in which the presence of undetected synchronous data exists. When the synchronization detection information indicates that the error position information indicates that no error has been detected in the first symbol adjacent to each of both sides of the undetected synchronization data, The method includes the step of determining at least one of a plurality of second symbols arranged adjacently to be lost, thereby achieving the above object.

At least two first symbols are arranged between adjacent ones of the plurality of synchronization data, and between adjacent ones of the at least two first symbols. , At least one second symbol is arranged, and the erasure position information generating step indicates that the first symbol in which an error is detected is present by the error position information, and the first symbol in which the error is detected. If at least one of the error position information and the synchronization detection information indicates that one of the detected synchronization data and the first symbol for which no error was detected is adjacent to each of the two sides of Determining that at least one of a plurality of second symbols arranged adjacent to the first symbol in which the error has been detected is lost; Good.

A reproduction method according to the present invention is a reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and error-correction encoded data are recorded, wherein the encoded data includes a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the plurality of synchronization data is an N-th (N is an integer) Wherein the reproducing method comprises: a reading step of reading the plurality of synchronous data and the encoded data from the recording medium; and detecting a state of the plurality of synchronous data. A synchronization detection information generating step of generating synchronization detection information indicating the detection result, and an erasure position information indicating an erasure position of the encoded data based on the synchronization detection information. And an erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information, wherein the erasure position information generation step comprises the (N + 1) th synchronization data And determining that at least one symbol arranged between the N-th synchronization data and the (N + 1) -th synchronization data is lost when the synchronization detection information indicates that the synchronization detection information has been detected as being shifted. , Whereby the above object is achieved.

The plurality of pieces of synchronization data include (N + 2) th synchronization data, and the erasure position information generating step includes, if the synchronization detection information indicates that the (N + 1) th synchronization data has been detected as being out of position. The method may further include determining that at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data is not an erasure.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol, and the plurality of synchronization data is N ( ), The reproducing method reads the composite encoded data from the recording medium, and reads the first encoded data, the second encoded data, and the A reading step of outputting a plurality of pieces of synchronization data; a synchronization detection information generating step of detecting states of the plurality of synchronization data to generate synchronization detection information indicating the detection result; and an error correction of the first encoded data Error position information generating step of generating error position information indicating an error position of the first encoded data; and determining an erasure position of the second encoded data based on the error position information and the synchronization detection information. An erasure position information generating step of generating the erasure position information shown in FIG. And the erasure position information generating step includes: when the synchronization detection information indicates that the (N + 1) th synchronization data has been detected with a displacement, the Nth synchronization data and the (N + 1) th synchronization data The method includes a step of determining that at least one second symbol arranged between the synchronization data and the synchronization data is lost, thereby achieving the above object.

The plurality of pieces of synchronization data include (N + 2) th synchronization data, and the erasure position information generating step includes the step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position. The method may further include determining that at least one second symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data is not an erasure.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol, and the plurality of synchronization data is N ( Is an integer) th synchronization data and (N + 1) th synchronization data, and a predetermined first symbol is arranged between the Nth synchronization data and the (N + 1) th synchronization data. Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data, and detecting a state of the plurality of synchronization data A synchronization detection information generating step of generating synchronization detection information indicating the detection result; and an error of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data. A position information generating step, and erasure position information generation for generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information. And an erasure error correction step of performing erasure error correction of the second coded data based on the erasure position information, wherein the erasure position information generation step is performed when the (N + 1) th synchronization data is shifted. When the synchronization detection information indicates that the detection has been performed, the method includes a step of determining that at least one second symbol arranged between the predetermined first symbol and the (N + 1) th synchronization data is lost, Thereby, the above object is achieved.

The plurality of synchronization data includes (N + 2) th synchronization data, and another predetermined first symbol is arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data. The generating step includes, if the synchronization detection information indicates that the (N + 1) th synchronization data has been detected as being out of position, arranges the (N + 1) th synchronization data between the (N + 1) th synchronization data and the another predetermined first symbol. And determining that the at least one second symbol is not an erasure, thereby achieving the above object.

The reproducing method according to the present invention is a reproducing method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and error-correction encoded data are recorded, wherein the encoded data includes a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the reproducing method comprises: A reading step of reading the encoded data and the synchronous data; a synchronous detection information generating step of detecting a state of the plurality of synchronous data and generating synchronous detection information indicating the detection result; and Erasure position information generating step of generating erasure position information indicating an erasure position of encoded data; and erasure error of the encoded data based on the erasure position information. Erasure error correction step of performing correction, wherein the erasure position information generation step includes the step of determining that at least one of the undetected synchronization data and the synchronization data detected with the positional deviation is continuously present. When the detection information indicates, at least one symbol arranged between the continuous synchronization data is determined to be lost, thereby achieving the above object.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A step of reading the composite encoded data and outputting the first encoded data, the second encoded data, and the plurality of synchronization data; detecting a state of the plurality of synchronization data; A synchronization detection information generating step of generating synchronization detection information indicating error detection; and an error position information generating step of performing error correction on the first encoded data and generating error position information indicating an error position of the first encoded data. An erasure position information generating step for generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; and performing the second encoding based on the erasure position information. An erasure error correction step of performing data erasure error correction, wherein the erasure position information generation step detects a position shift with respect to the undetected synchronous data. If the synchronization detection information indicates that at least one of the synchronized data is present continuously, the step of determining that at least one second symbol arranged between the continuous synchronized data is lost is determined. Including, thereby achieving the above object.

The erasure position information generating step may further include a step of determining that at least one first symbol arranged between the continuous synchronization data is erasure.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The encoded first encoded data, and the second encoded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. A reading step of reading at least one of the symbols, reading the composite encoded data from the recording medium, and outputting the first encoded data and the second encoded data; An error position information generating step of performing error correction on the first encoded data and generating error position information indicating an error position of the first encoded data; and the second encoded data based on the error position information. Erasure position information generating step of generating at least first erasure position information and second erasure position information indicating the erasure positions of the first and second erasure positions, and at least one of the first erasure position information and the second erasure position information And an erasure error correction step of performing erasure error correction of the second encoded data based on the first erasure position information. Includes a step of performing erasure error correction of the second encoded data based on the second erasure position information, whereby the object is achieved.

When all errors can be corrected based on the first erasure position information, the erasure position information generation step uses another method for generating the second erasure position information, Generating erasure position information for erasure error correction of the encoded data; and, when all errors have been corrected based on the second erasure position information, generating Generating erasure position information for erasure error correction of another second encoded data by using the same method as that described above, whereby the above object is achieved.

The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol. No error is detected between the first symbol and the (N + 2) -th first symbol, and if the error position information indicates that an error has been detected in the (N + 1) -th first symbol, the (N + 1) -th The method may include determining that at least one of the plurality of second symbols arranged adjacent to the first symbol is lost.

A reproduction method according to the present invention is a reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and error-correction encoded data are recorded, wherein the encoded data includes a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the reproducing method comprises the steps of: A reading step of reading the coded data, a synchronization detection information generating step of detecting a state of the plurality of synchronization data, and generating synchronization detection information indicating the detection result; and Lost position information generating step of generating at least first lost position information and second lost position information indicating a lost position of the coded data; A erasure error correction step of performing erasure error correction of the encoded data based on at least one of the position information and the second erasure position information, wherein the erasure error correction step includes the first erasure position information. If there is an error that could not be corrected based on the second erasure position information, the method includes a step of performing erasure error correction of the encoded data based on the second erasure position information, thereby achieving the object.

In the erasure position information generation step, when all errors can be corrected based on the first erasure position information, another encoding is performed by using the same method as that used when the first erasure position information is generated. Generating erasure position information for data erasure error correction; and, if all errors can be corrected based on the second erasure position information, the same as when the second erasure position information is generated. Generating erasure position information for erasure error correction of another encoded data using the method.

The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data, and the erasure position information generating step includes: If the synchronization detection information indicates that the (N + 2) th synchronization data has been detected and the (N + 1) th synchronization data has not been detected, a plurality of symbols arranged adjacent to the (N + 1) th synchronization data And determining at least one of them as disappearance.

The plurality of pieces of synchronization data include N-th (N is an integer) synchronization data and (N + 1) -th synchronization data. In the erasure position information generation step, the (N + 1) -th synchronization data is detected as being out of position. If the synchronization detection information indicates that, at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is determined to be lost.

When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement has been continuously present, the lost synchronization information generation step includes the step of performing the continuous synchronization. The method may include the step of determining that at least one symbol arranged between data is lost.

The reproduction method according to the present invention is a reproduction method for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A step of reading the composite encoded data and outputting the first encoded data, the second encoded data, and the plurality of synchronization data; detecting a state of the plurality of synchronization data; A synchronization detection information generating step of generating synchronization detection information indicating error detection; and an error position information generating step of performing error correction on the first encoded data and generating error position information indicating an error position of the first encoded data. An erasure position information generating step of generating at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; Erasure error correction step of performing erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information And the erasure error correction step includes: when an error that cannot be corrected based on the first erasure position information exists, based on the second erasure position information, The method includes a step of performing erasure error correction, thereby achieving the above object.

When all errors can be corrected based on the first erasure position information, the erasure position information generation step uses another method for generating the second erasure position information to generate another second erasure position information. Generating erasure position information for erasure error correction of the coded data; and, when all errors have been corrected based on the second erasure position information, generating the second erasure position information. And generating erasure position information for erasure error correction of another second encoded data by using the same method as that described above.

In the erasure position information generating step, the synchronization detection information indicates that there is synchronization data that has not been detected, and no error has been detected in the first symbols adjacent to both sides of the synchronization data that has not been detected. If the error position information indicates that, at least one of a plurality of second symbols arranged adjacent to the undetected synchronization data is determined to be lost.

At least two first symbols are arranged between adjacent ones of the plurality of synchronization data, and between adjacent ones of the at least two first symbols. , At least one second symbol is arranged, and the erasure position information generating step indicates that the first symbol in which an error is detected is present by the error position information, and the first symbol in which the error is detected. If at least one of the error position information and the synchronization detection information indicates that one of the detected synchronization data and the first symbol for which no error was detected is adjacent to each of the two sides of The method may include determining that at least one of a plurality of second symbols arranged adjacent to the first symbol in which the error has been detected is lost.

The plurality of pieces of synchronization data include N-th (N is an integer) synchronization data and (N + 1) -th synchronization data. In the erasure position information generation step, the (N + 1) -th synchronization data is detected as being out of position. In the case where the synchronization detection information indicates that, at least one second symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is determined to be lost.

When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement has been continuously present, the lost synchronization information generation step includes the step of performing the continuous synchronization. The method may include determining that at least one second symbol arranged between the data is lost.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The encoded first encoded data, and the second encoded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. At least one of the symbols is arranged, and the plurality of first symbols include an N (N is an integer) first symbol, an (N + 1) th first symbol, and an (N + 2) th first symbol. , The playback device A reading unit that reads the composite coded data from the recording medium and outputs the first coded data and the second coded data, performs error correction on the first coded data, and performs a first code An error position information generation unit that generates error position information indicating an error position of encoded data; and an erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information. And an erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information, wherein the error position information includes the N-th first symbol and the (N + 2) -th first symbol. In the case where no error is detected and the error is detected in the (N + 1) -th first symbol, the erasure position information generation unit determines whether or not the erasure position information is adjacent to the (N + 1) -th first symbol. At least one of the plurality of second symbol is determined that loss which, the objects can be achieved.

When the error location information indicates that no error is detected in the N-th first symbol and the (N + 2) -th first symbol and an error is detected in the (N + 1) -th first symbol, The erasure position information generation unit is configured to be adjacent to the (N + 1) -th first symbol of at least one second symbol arranged between the (N) -th first symbol and the (N + 1) -th first symbol. The at least one second symbol arranged is determined to be lost, and the (N + 1) th symbol among the at least one second symbol arranged between the (N + 1) th first symbol and the (N + 2) th first symbol is determined. At least one second symbol arranged adjacent to the first symbol may be determined to be lost.

If the error location information indicates that an error has been detected in both of the two first symbols adjacent to each other, the erasure location information generation unit may determine that the two first symbols in which the error has been detected. All the second symbols arranged between the symbols may be determined to be lost.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The encoded first encoded data, and the second encoded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. A reading unit in which at least two of the symbols are arranged, the reproducing device reads the composite encoded data from the recording medium, and outputs the first encoded data and the second encoded data; the above An error position information generating unit for performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data, and an erasure position of the second encoded data based on the error position information An erasure position information generation unit that generates erasure position information indicating the erasure position information, and an erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information. When indicating that the first symbol that has not been detected and the first symbol that has detected an error are adjacent to each other, the erasure position information generation unit determines that the first symbol that has not detected the error and the first symbol that has detected the error are adjacent to each other. Of at least one of the at least two second symbols arranged between the first symbol and the first symbol in which the error has been detected. Determines that were determined not to be lost at least one second symbol is arranged adjacent to the first symbol the error is not detected, the object is achieved.

If the error location information indicates that an error has been detected in both of the two first symbols adjacent to each other, the erasure location information generation unit may determine that the two first symbols in which the error has been detected. All of the second symbols arranged between are determined to be lost, thereby achieving the above object.

The playback device of the present invention is a playback device that plays back the coded data from a recording medium on which a plurality of pieces of synchronous data and coded data subjected to error correction coding are recorded, wherein the coded data contains a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the plurality of synchronization data is an N-th (N is an integer) Wherein the reproducing device includes: a reading unit that reads the plurality of synchronization data and the encoded data from the recording medium; and a reading unit that reads the plurality of synchronization data and the encoded data from the recording medium. A synchronization detection information generation unit that detects a state of the synchronization data and generates synchronization detection information indicating the detection result; and An erasure position information generating unit for generating erasure position information, and an erasure error correction unit for performing erasure error correction of the encoded data based on the erasure position information, wherein the synchronization detection information is the Nth synchronization information. If the data and the (N + 2) th synchronization data are detected and the (N + 1) th synchronization data is not detected, the erasure position information generating unit arranges the data adjacent to the (N + 1) th synchronization data. It is determined that at least one of the plurality of symbols has been lost, thereby achieving the above object.

If the synchronization detection information indicates that the N-th synchronization data and the (N + 2) -th synchronization data have been detected and the (N + 1) -th synchronization data has not been detected, the erasure position information generation unit includes: At least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is determined to be lost, At least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data is determined to be lost. Is also good.

If the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected, the erasure position information generation unit arranges between the two non-detection synchronization data. All the performed symbols may be determined to be lost.

The playback device of the present invention is a playback device that plays back the coded data from a recording medium on which a plurality of pieces of synchronous data and coded data subjected to error correction coding are recorded, wherein the coded data contains a plurality of symbols. Wherein at least two of the plurality of symbols are arranged between adjacent ones of the plurality of synchronization data, and the playback device reads the plurality of synchronization data from the recording medium. A reading unit that reads the encoded data and the encoded data, a synchronization detection information generating unit that detects a state of the plurality of synchronization data, and generates synchronization detection information indicating the detection result, and the code based on the synchronization detection information. An erasure position information generation unit that generates erasure position information indicating an erasure position of encoded data; and an erasure error that performs erasure error correction of the encoded data based on the erasure position information. A correction unit, wherein when the synchronization detection information indicates that synchronization data adjacent to the detected synchronization data has not been detected, the erasure position information generation unit includes the detected synchronization data. And at least one of the at least two symbols arranged between the undetected synchronization data and the at least one symbol arranged adjacent to the undetected synchronization data is determined to be lost, and the detected It is determined that at least one symbol arranged adjacent to the synchronization data is not an erasure, thereby achieving the above object.

If the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected, the erasure position information generation unit arranges between the two non-detection synchronization data. All the performed symbols may be determined to be lost.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A reading unit that reads the composite coded data from the device and outputs the first coded data, the second coded data, and the plurality of synchronization data, and detects a state of the plurality of synchronization data; A synchronization detection information generation unit that generates synchronization detection information indicating an error, and an error position information generation unit that performs error correction on the first encoded data and generates error position information indicating an error position of the first encoded data. An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; and the second encoding based on the erasure position information. An erasure error correction unit that performs data erasure error correction, wherein the synchronization detection information indicates that there is synchronization data that has not been detected, and the error position information has not been detected. If no error has been detected in the first symbol adjacent to each of both sides of the synchronization data, the erasure position information generation unit may determine that a plurality of erasure positions are adjacent to the undetected synchronization data. At least one of the second symbols is determined to be lost, thereby achieving the above object.

At least two first symbols are arranged between adjacent ones of the plurality of synchronization data, and between adjacent ones of the at least two first symbols. , At least one second symbol is arranged, and the error position information indicates that there is a first symbol in which an error is detected, and at least one of the error position information and the synchronization detection information is If the two sides of the first symbol where an error is detected indicate that one of the detected synchronization data and the first symbol where no error is detected is adjacent, the erasure position information generation unit May determine that at least one of a plurality of second symbols arranged adjacent to the first symbol in which the error has been detected is lost.

The playback device of the present invention is a playback device that plays back the coded data from a recording medium on which a plurality of pieces of synchronous data and coded data subjected to error correction coding are recorded, wherein the coded data contains a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the plurality of synchronization data is an N-th (N is an integer) Wherein the reproducing device includes: a reading unit that reads the plurality of pieces of synchronous data and the encoded data from the recording medium; and a state that detects a state of the plurality of pieces of synchronous data. A synchronization detection information generation unit that generates synchronization detection information indicating the detection result, and generates erasure position information indicating an erasure position of the encoded data based on the synchronization detection information. A loss-of-position information generating unit; and an erasure error correction unit that performs erasure error correction of the encoded data based on the erasure-position information, wherein the synchronization detection information detects that the (N + 1) -th synchronization data is displaced. In the case of indicating that the erasure has been performed, the erasure position information generation unit determines that at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is erasure, and The above object is achieved.

The plurality of synchronization data includes (N + 2) th synchronization data, and when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, the erasure position information generation unit includes: It is determined that at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data is not an erasure, thereby achieving the above object.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol, and the plurality of synchronization data is N ( The playback device reads the composite encoded data from the recording medium, and reads the first encoded data, the second encoded data, and the A reading unit that outputs a plurality of pieces of synchronization data; a synchronization detection information generation unit that detects states of the plurality of pieces of synchronization data and generates synchronization detection information indicating the detection result; and an error correction unit that corrects the first encoded data. Performing an error position information generation unit that generates error position information indicating an error position of the first encoded data; and determining an erasure position of the second encoded data based on the error position information and the synchronization detection information. An erasure position information generating unit for generating the erasure position information to be shown, and an erasure error correction unit for performing an erasure error correction of the second encoded data based on the erasure position information. When indicating that the (N + 1) th synchronization data has been detected as being shifted in position, the erasure position information generation unit determines at least the Nth synchronization data and the (N + 1) th synchronization data arranged between the (N + 1) th synchronization data. One second symbol is determined to be lost, thereby achieving the above object.

The plurality of synchronization data includes an (N + 2) th synchronization data,
If the synchronization detection information indicates that the (N + 1) th synchronization data has been detected as being out of position, the erasure position information generation unit determines whether the (N + 1) th synchronization data and the (N + 2) th synchronization data are offset. At least one second symbol arranged therebetween may be determined not to be an erasure.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol, and the plurality of synchronization data is N ( Is an integer) th synchronization data and (N + 1) th synchronization data, and a predetermined first symbol is arranged between the Nth synchronization data and the (N + 1) th synchronization data. A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data, and detects a state of the plurality of synchronization data. A synchronization detection information generation unit that generates synchronization detection information indicating the detection result; and an error correction unit that performs error correction on the first encoded data and generates error position information indicating an error position of the first encoded data. A position information generation unit, an erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information, An erasure error correction unit that performs erasure error correction of the second encoded data based on the information, and when the synchronization detection information indicates that the (N + 1) th synchronization data has been detected with a displacement. The erasure position information generation unit determines that at least one second symbol arranged between the predetermined first symbol and the (N + 1) th synchronization data is an erasure, thereby achieving the object. .

The plurality of synchronization data includes an (N + 2) th synchronization data, and another predetermined first symbol is arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data. Indicates that the (N + 1) th synchronization data has been detected as being shifted in position, the erasure position information generation unit determines between the (N + 1) th synchronization data and the another predetermined first symbol. At least one arranged second symbol may be determined not to be an erasure.

The playback device of the present invention is a playback device that plays back the coded data from a recording medium on which a plurality of pieces of synchronous data and coded data subjected to error correction coding are recorded, wherein the coded data contains a plurality of symbols. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data, and the playback device reads the plurality of synchronization data from the recording medium. A reading unit that reads the encoded data, a synchronization detection information generation unit that detects a state of the plurality of synchronization data, and generates synchronization detection information indicating a result of the detection, and the code based on the synchronization detection information. An erasure position information generation unit that generates erasure position information indicating an erasure position of encoded data, and an erasure error that performs erasure error correction of the encoded data based on the erasure position information. A correction unit, wherein when the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected with a positional shift is continuously present, the lost position information generation is performed. The unit determines that at least one symbol arranged between the continuous synchronization data is lost, thereby achieving the object.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A reading unit for reading the composite coded data from the plurality of data and outputting the first coded data, the second coded data, and the plurality of synchronization data; detecting a state of the plurality of synchronization data; A synchronization detection information generation unit that generates synchronization detection information indicating the error, and an error position information generation unit that performs error correction on the first encoded data and generates error position information indicating an error position of the first encoded data. An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; and the second encoding based on the erasure position information. An erasure error correction unit that performs erasure error correction of data, wherein the synchronization detection information is such that at least one of synchronization data that has not been detected and synchronization data that has been detected with a position shift is consecutive. To indicate that the resident is the erasure locator information generation unit determines that lost at least one second symbol arranged between the synchronous data for the continuous, the objects can be achieved.

The erasure position information generating unit may determine that at least one first symbol arranged between the continuous synchronization data is erasure.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. The first coded data and the second coded data error-corrected using a second error-correcting code having a lower redundancy than the first error-correcting code. The data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and the plurality of second symbols are located between adjacent ones of the plurality of first symbols. At least one of the symbols is arranged, the reproducing device reads the composite encoded data from the recording medium, and outputs the first encoded data and the second encoded data; the above An error position information generating unit for performing error correction of one encoded data and generating error position information indicating an error position of the first encoded data; and erasing the second encoded data based on the error position information. A lost position information generating unit that generates at least first lost position information and second lost position information indicating a position, and based on at least one of the first lost position information and the second lost position information. And an erasure error correction unit that performs erasure error correction of the second encoded data, wherein the erasure error correction unit is configured to, when an error that cannot be corrected based on the first erasure position information exists, The erasure error correction of the second encoded data is performed based on the second erasure position information, thereby achieving the object.

When all the errors have been corrected based on the first erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. Generate erasure position information for erasure error correction of encoded data,
If all the errors have been corrected based on the second erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. Erasure position information for erasure error correction of encoded data may be generated.

The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol, and the error position information is the N-th first symbol. If no error is detected in one symbol and the (N + 2) -th first symbol, and it indicates that an error has been detected in the (N + 1) -th first symbol, the erasure position information generation unit sets the (N + 1) -th symbol. At least one of a plurality of second symbols arranged adjacent to the first symbol may be determined to be lost.

The playback device of the present invention is a playback device that plays back the coded data from a recording medium on which a plurality of pieces of synchronous data and coded data subjected to error correction coding are recorded. Wherein at least one of the plurality of symbols is arranged between adjacent ones of the plurality of pieces of synchronization data, and the playback device reads the plurality of pieces of synchronization data from the recording medium. A reading unit that reads the encoded data and the encoded data, a synchronization detection information generating unit that detects a state of the plurality of synchronization data, and generates synchronization detection information indicating the detection result, and the code based on the synchronization detection information. An erasure position information generating unit that generates at least first erasure position information and second erasure position information indicating the erasure position of the coded data, the first erasure position information and the second erasure position information. And a erasure error correction unit for performing erasure error correction of the encoded data based on at least one of the erasure position information of If an error exists, the erasure error of the encoded data is corrected based on the second erasure position information, thereby achieving the above object.

If all errors can be corrected based on the first erasure position information, the erasure position information generation unit performs another encoding using the same method as that used when generating the first erasure position information. When erasure position information for data erasure error correction is generated, and when all errors can be corrected based on the second erasure position information, the erasure position information generation unit outputs the second erasure position information. The erasure position information for erasure error correction of another encoded data may be generated by using the same method as that for generating the information.

The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data, and the synchronization detection information includes the N-th synchronization data and the N + 2 If the Nth synchronization data is detected and the (N + 1) th synchronization data is not detected, the erasure position information generation unit may determine a plurality of the synchronization data arranged adjacent to the (N + 1) th synchronization data. At least one of the symbols may be determined to be lost.

The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data, and the synchronization detection information indicates that the (N + 1) th synchronization data has been detected with a displacement. In the case of indicating, the erasure position information generation unit may determine that at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is erasure.

In a case where the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuously present, the erasure position information generation unit performs At least one symbol arranged between the synchronization data may be determined to be lost.

The reproducing apparatus according to the present invention is a reproducing apparatus for reproducing the composite coded data from a recording medium on which the composite coded data is recorded, wherein the composite coded data includes an error correction code using a first error correction code. First encoded data, second encoded data error-corrected using a second error-correcting code having lower redundancy than the first error-correcting code, and a plurality of synchronization data. , The first encoded data includes a plurality of first symbols, the second encoded data includes a plurality of second symbols, and at least between synchronous data adjacent to each other among the plurality of synchronous data. One first symbol is arranged, and at least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol. A reading unit that reads the composite coded data from the device and outputs the first coded data, the second coded data, and the plurality of synchronization data, and detects a state of the plurality of synchronization data; A synchronization detection information generation unit that generates synchronization detection information indicating an error, and an error position information generation unit that performs error correction on the first encoded data and generates error position information indicating an error position of the first encoded data. An erasure position information generating unit that generates at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information; An erasure error correction unit that performs erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information, If there is an error that could not be corrected based on the first erasure position information, erasure error correction of the second coded data is performed based on the second erasure position information, whereby Is achieved.

If all errors have been corrected based on the first erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. When erasure position information for erasure error correction of encoded data is generated, and when all errors can be corrected based on the second erasure position information, the erasure position information generation unit generates the second erasure position information. The erasure position information for erasure error correction of another second encoded data may be generated by using the same method as that for generating the erasure position information.

The synchronization detection information indicates that there is synchronization data that has not been detected, and the error position information indicates that no error has been detected in the first symbol adjacent to each of both sides of the synchronization data that has not been detected. In the case of indicating, the erasure position information generation unit may determine that at least one of the plurality of second symbols arranged adjacent to the undetected synchronization data is erasure.

At least two first symbols are arranged between adjacent ones of the plurality of synchronization data, and between adjacent ones of the at least two first symbols. , At least one second symbol is arranged, and the error position information indicates that there is a first symbol in which an error is detected, and at least one of the error position information and the synchronization detection information is If the two sides of the first symbol where an error is detected indicate that one of the detected synchronization data and the first symbol where no error is detected is adjacent, the erasure position information generation unit May determine that at least one of a plurality of second symbols arranged adjacent to the first symbol in which the error has been detected is lost.

The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data, and the synchronization detection information indicates that the (N + 1) th synchronization data has been detected with a displacement. When indicating, the erasure position information generation unit may determine that at least one second symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is an erasure.

When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a positional shift is continuously present, the lost position information generation unit may perform the continuous processing. At least one second symbol arranged between the synchronization data may be determined to be lost.

According to the present invention, when an error is detected in the first symbol included in the first coded data having a high degree of redundancy, or when synchronization data cannot be detected, the first symbol in which the error is detected or the detection of the first symbol is performed. The second symbol arranged in the vicinity of the synchronization data that could not be determined is determined to be lost because the possibility of an error is high. Further, when the synchronization data is detected with a positional shift, the symbols included in the coded data arranged before the synchronization data are determined to be lost due to the high possibility of an error. It is determined that a symbol included in the encoded data arranged after the data is not an erasure since the possibility of an error is low. In addition, if the synchronization data that could not be detected and the synchronization data that was detected with a displacement are continuous, the data read during that time is erroneous until the next synchronization data is correctly detected. Since the possibility is high, the symbols included in all the coded data between the continuous synchronization data are determined as erasures. With these methods, the erasure position can be determined with higher accuracy, and the error correction capability can be improved.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
An error correction method according to the first embodiment of the present invention will be described with reference to the composite coded data 203 shown in FIG. 2 as an example of the composite coded data.

FIG. 1 shows a flowchart 10 illustrating an error correction method for the composite encoded data 203 according to the present embodiment.

In step 101, the states of the synchronization data 204 and 205 are detected in the order of recording, and synchronization detection information indicating the detection result is generated. For example, when certain synchronization data can be detected, the synchronization detection information associated with the synchronization data indicates 0. When certain synchronization data cannot be detected, the synchronization detection information associated with the synchronization data indicates 1. Further, when certain synchronization data is detected with a shift, the synchronization detection information associated with the synchronization data indicates 2.

In step 102, error correction of the first encoded data 201 is performed, and in step 103, error position information indicating an error position of the first encoded data 201 is generated. Here, since the first encoded data 201 is arranged in an interleaved manner, error correction is performed on the first encoded data 201 that has been subjected to deinterleaving, which is the inverse transform of interleaving. As a result, error correction is performed on each of the first encoded data 206 to 211. Details will be described later.

In step 104, erasure position information indicating the erasure position of the second encoded data 202 is generated using the synchronization detection information and error position information generated in steps 101 and 103. Details will be described later.

In step 105, the erasure error of the second encoded data 202 is corrected using the erasure position information generated in step 104.

FIG. 8 shows a flowchart 80 illustrating an example of a method of correcting an error in the first encoded data 201 and generating error position information, which is executed in steps 102 and 103 in FIG.

In step 801, a syndrome indicating position information for specifying an error part is calculated. Error correction data R

とする。Ａ［ｉ］（ｉ＝０〜６１）は、１バイトを表し、８ビットに相当する。ここでは、１シンボルのデータサイズを１バイトとする。Ａ［０］〜Ａ［２９］はデータ部分、Ａ［３０］〜Ａ［６１］はパリティ部分を表す。このとき、シンドロームＳ_ｊは次のように定義される。

And A [i] (i = 0 to 61) represents one byte and corresponds to 8 bits. Here, the data size of one symbol is one byte. A [0] to A [29] represent a data portion, and A [30] to A [61] represent a parity portion. At this time, the syndrome S _j is defined as follows.

ただし、ｊ＝０〜３１である。

Here, j = 0 to 31.

If the syndrome _Sj is 0 in step 802, it is determined in step 810 that all the symbols A [i] (i = 0 to 61) included in the data R have no error, and in step 813, all the symbols A [i ] (I = 0 to 61) is generated as error position information indicating 0. If the syndrome _Sj is not 0, the process proceeds to the next step 803.

In step 803, an error locator polynomial is derived using the syndrome _Sj . The error location polynomial is a polynomial having the root of the reciprocal of the error locations L1, L2,..., Lm (m is the number of errors),

で表される。誤り位置多項式の係数は、シンドロームＳ_ｊによって定義される。誤り位置多項式の係数とシンドロームＳ_ｊの間に成り立つ連立方程式を行列を使って解くピーターソン法や、その連立方程式を多項式を使って解く逐次的計算法であるユークリッド法やＢＭ法などのアルゴリズムを用いて、誤り位置多項式の係数が求められる。

Is represented by The coefficients of the error locator polynomial are defined by the syndrome S _j . Algorithms such as the Peterson method, which solves a system of equations that hold between the coefficients of the error locator polynomial and the syndrome S _j using a matrix, and the Euclidean method and the BM method, which are sequential calculations that solve the system of equations using a polynomial, The coefficients of the error locator polynomial are determined using the above equation.

な ら ば If the coefficients of the error locator polynomial have been determined in step 804, the flow advances to the next step 805. If not, the process proceeds to step 809. In step 809, it is determined that more errors than the correctable number have occurred, and in step 812, error position information indicating 1 as error position information corresponding to all symbols A [i] (i = 0 to 61) Generate

In step 805, the root of α of the primitive polynomial (Equation 1) is successively substituted into the error locator polynomial by the −ith power (i = 0 to 61), and k at which the solution of the error locator polynomial becomes 0 is obtained. An erroneous position (that is, an error position) is obtained. The symbol corresponding to the error position is represented as (Equation 6).

　ステップ８０６で、誤り位置を求める計算が可能であったならば、次のステップ８０７に進む。誤り位置を求める計算が不可能であったならば、全シンボルＡ［ｉ］（ｉ＝０〜６１）に対応する誤り位置情報として１を示す誤り位置情報を生成する。

If it is determined in step 806 that the calculation for finding the error position is possible, the process proceeds to the next step 807. If it is not possible to calculate the error position, error position information indicating 1 is generated as error position information corresponding to all symbols A [i] (i = 0 to 61).

In step 807, an error value is calculated by solving a simultaneous equation between the error position obtained in steps 805 and 806 and the syndrome _Sj .

In step 808, the error value of symbol A [61-k] is subtracted from the value of symbol A [61-k] corresponding to the error position obtained in steps 805 and 806 by subtracting the error value obtained in step 807. Make corrections. In step 811, error position information indicating 1 is generated as error position information corresponding to the symbol A [61-k]. By correcting such an error and generating error position information, error position information of the first encoded data 201 is generated.

Hereinafter, a method of generating the lost position information in step 104 of FIG. 1 will be described in detail. In the generation of the erasure position information, the synchronization detection information of the synchronization data located before and after the second encoded data for which the erasure position information is to be generated and / or before and after the second encoded data for which the erasure position information is to be generated. , The error position information of the first encoded data located in the first coded data is read out, and the erasure position information is generated using the read out information. In the present embodiment, a method for generating the erasure position information when the state of the synchronization data and the first symbol is as shown in FIGS. 9 to 11 will be described. Each of the data shown in FIGS. 9 to 11 is a part of one row of data (or a part of data of a plurality of rows) of the composite coded data 203 arranged in a matrix along the recording direction. Show.

In FIG. 9, x represents the synchronization data in which the synchronization detection information indicates 1, or the first symbol in which the error position information indicates 1. The symbol “同期” indicates the synchronization data in which the synchronization detection information indicates “0” or the first symbol in which the error position information indicates “0”.

In FIG. 9, an N-th (N is an integer) first symbol 901, an (N + 1) -th first symbol 902, and an (N + 2) -th first symbol 903 are arranged in the order along the recording direction 908. If no error is detected in the N-th first symbol 901 and the (N + 2) -th first symbol 903, and if an error is detected in the (N + 1) -th first symbol 902, the (N + 1) -th first symbol 902 At least one of a plurality of second symbols arranged adjacent to both sides is determined to be lost, and lost position information indicating the determination result is generated.

で は In FIG. 9, second encoded data 909 is arranged between the N-th first symbol 901 and the (N + 1) -th first symbol 902. The second encoded data 909 is divided into two partial second encoded data 904 and 906 according to the number of second symbols determined to be lost. Each of the partial second encoded data 904 and 906 includes at least one second symbol. When the erasure position information is generated, it is determined that at least one second symbol included in the partial second encoded data 904 arranged adjacent to the (N + 1) th first symbol 902 is an erasure. Also, it is determined that at least one second symbol included in the partial second encoded data 906 arranged adjacent to the N-th first symbol 901 is not an erasure.

{Circle around (2)} Second encoded data 910 is arranged between the (N + 1) th first symbol 902 and the (N + 2) th first symbol 903. The second encoded data 910 is divided into two partial second encoded data 905 and 907 according to the number of second symbols determined to be lost. Each of the partial second encoded data 905 and 907 includes at least one second symbol. When the erasure position information is generated, it is determined that at least one second symbol included in the partial second coded data 905 arranged adjacent to the (N + 1) th first symbol 902 is an erasure. Also, it is determined that at least one second symbol included in the partial second encoded data 907 arranged adjacent to the (N + 2) th first symbol 903 is not an erasure.

The number of second symbols to be determined to be lost is arbitrary, and for example, half of a plurality of second symbols included in each of the second encoded data 909 and 910 sandwiched between the synchronization data and / or the first encoded data is It may be determined to be lost, or all the second symbols may be determined to be lost.

The second symbol determined to be lost is associated with lost position information indicating 1.
The second symbol determined to be not lost is associated with lost position information indicating 0.

The N-th first symbol 901, the (N + 1) -th first symbol 902, and the (N + 2) -th first symbol 903 may be synchronous data. In this case, as in the above description, at least one of the second symbols arranged adjacent to both sides of the (N + 1) th synchronization data 902 is determined to be lost, and the erasure position information indicating the determination result is displayed. Generate

{For example, at least one second symbol included in the partial second encoded data 904 arranged adjacent to the (N + 1) th synchronization data 902 is determined to be lost. Further, it is determined that at least one second symbol included in the partial second encoded data 906 arranged adjacent to the N-th synchronization data 901 is not an erasure.

{Also, for example, at least one second symbol included in the partial second coded data 905 arranged adjacent to the (N + 1) th synchronization data 902 is determined to be lost. Also, it is determined that at least one second symbol included in the partial second encoded data 907 arranged adjacent to the (N + 2) th synchronization data 903 is not an erasure. Also in this case, the number of the second symbols determined to be lost is arbitrary.

Further, at least one of the N-th first symbol 901, the N + 1-th first symbol 902 and the N + 2-th first symbol 903 (for example, the N-th first symbol 901) may be synchronous data. . Also in this case, the lost position information is generated by the same procedure as described above (the detailed description is omitted because the lost position information is generated by the same procedure as above).

If the method of generating the erasure position information is applied to a case where an error occurs as shown in FIG. 7, the second symbols arranged in the error position areas 710 and 711 are determined to be erasures. As a result of this determination, each of the partial second coded data 704 to 709 includes 12 second symbols determined to be lost and 5 second symbols determined to be erroneous. And the number of errors are in the range of (Equation 2), so that error correction can be performed.

If the error location information (or the synchronization detection information) indicates that an error has been detected in both of two adjacent first symbols (or two adjacent synchronization data), the error All the second symbols arranged between the two first symbols (or two pieces of synchronization data) in which is detected may be determined to be lost.

Next, another method of generating lost position information will be described with reference to FIG. In FIG. 10, x indicates synchronization data whose synchronization detection information indicates 1, and △ indicates synchronization data whose synchronization detection information indicates 2 (that is, synchronization data detected with a shift).

In FIG. 10, along the recording direction 1006, the Nth synchronization data 1002, the (N + 1) th synchronization data 1001 and the (N + 2) th synchronization data 1003 are arranged. At least second encoded data 1004 is arranged between the N-th synchronization data 1002 and the (N + 1) -th synchronization data 1001. At least the second encoded data 1005 is arranged between the (N + 1) th synchronization data 1001 and the (N + 2) th synchronization data 1003. Each of the second encoded data 1004 and the second encoded data 1005 includes at least one second symbol. As shown in FIG. 10, when the (N + 1) th synchronization data 1001 is detected as being out of position, at least one of the second synchronization data 1002 arranged between the Nth synchronization data 1002 and the (N + 1) th synchronization data 1001. The symbol is determined to be lost. Further, it is determined that at least one second symbol arranged between the (N + 1) th synchronization data 1001 and the (N + 2) th synchronization data 1003 is not an erasure. This is because if the sync data is detected with a shift, the symbol positioned before the sync data that is detected with a shift is likely to be erroneous, and the symbol positioned after the sync data that is detected with a shift is correctly determined. This is because there is a high possibility of reproduction.

Note that the Nth synchronization data 1002 and the (N + 2) th synchronization data 1003 may be the first symbol (in this case, x represents the first symbol whose error position information indicates 1; One symbol 1002 is the first symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data, and the first symbol 1003 is located between the (N + 1) th synchronization data and the (N + 2) th synchronization data. This is the first symbol arranged). Also in this case, at least one second symbol arranged between the first symbol 1002 and the (N + 1) th synchronization data 1001 is determined to be lost. Further, it is determined that at least one second symbol arranged between the (N + 1) th synchronization data 1001 and the first symbol 1003 is not an erasure.

The second symbol determined to be lost is associated with lost position information indicating 1.
The second symbol determined to be not lost is associated with lost position information indicating 0.

Using this method of generating erasure position information, it is possible to determine that a symbol that is likely to be erroneously located before the synchronization data is erasure, and the number of correctable symbols among erroneous symbols increases. The error correction capability is improved. In addition, since it is determined that a symbol that is likely to be correctly reproduced and located after the synchronization data is not an erasure, an erroneous symbol is not determined to be an erasure. Since erasure error correction can be performed, error correction capability is improved.

Next, still another method of generating lost position information will be described with reference to FIG. In FIG. 11, x indicates at least one of the synchronization data whose synchronization detection information indicates 1 and the first symbol whose error position information indicates 1, and ○ indicates that the synchronization data and error position information whose synchronization detection information indicates 0. Represents at least one of the first symbols indicating 0, and △ represents synchronization data whose synchronization detection information indicates 2.

(4) If the synchronous data cannot be detected, it is highly likely that the data read during that time is incorrect until the next correct synchronous data is detected. Therefore, when at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuous, at least one first symbol and at least one of the first symbols arranged between the continuous synchronization data are provided. One second symbol is determined to be lost. Referring to FIG. 11, when synchronization data in which synchronization detection information indicates 1 like synchronization data 1101 and 1102 continues in the recording direction 1118, error position information indicates 0 between synchronization data 1101 and 1102. Even if the indicated first symbol 1104 exists, it is assumed that the information indicated by the first symbol 1104 coincides with the correct code word, and the first symbol 1104 is determined to be lost. Also, it is determined that the second symbols included in the second encoded data 1110, 1111, 1112, and 1113 between the synchronization data 1101 and 1102 are lost. The second symbol determined to be lost is associated with lost position information indicating 1.

Similarly, when the synchronization data whose synchronization detection information indicates 1 and the synchronization data whose synchronization detection information indicates 2 continue along the recording direction 1118 as in the case of the synchronization data 1102 and 1103, the synchronization data Even if there is a first symbol 1108 whose error position information indicates 0, it is assumed that the information indicated by the first symbol 1108 coincides with a correct codeword by chance, and the first symbol 1108 is determined to be lost. Also, it is determined that the second symbol included in each of the second encoded data 1114, 1115, 1116, and 1117 between the synchronization data 1102 and 1103 is lost. The second symbol determined to be lost is associated with lost position information indicating 1. Note that the first symbols 1105, 1106, 1107, and 1109 are the first symbols determined to be incorrect.

By using the method of generating the erasure position information, the first symbol that is not mistakenly determined to be erroneous because the information indicated by the first symbol coincides with the correct codeword by mistake is accurately determined as an error. Can be determined. As a result, the second symbol, which is erroneous but cannot be determined to be lost due to the first symbol that is determined to be incorrect but not determined to be false, can be accurately determined to be lost. Since the number of erroneous symbols that can be corrected increases, the error correction capability is improved. Further, since the erasure error correction can be performed more reliably, the erasure error correction capability is improved.

FIG. 12 shows a flowchart 120 illustrating an example of a method of performing erasure error correction on the second encoded data 202, which is performed in step 105 of FIG.

In step 1201, a syndrome indicating position information for specifying an error part is calculated. Data R for erasure error correction

とする。Ｂ［ｉ］（ｉ＝０〜２４７）は、１バイトを表し、８ビットに相当する。ここでは、１シンボルのデータサイズを１バイトとする。Ｂ［０］〜Ｂ［２１５］はコンテンツ（例えば映像）などを示すデータ部分、Ｂ［２１６］〜Ｂ［２４７］はパリティ部分を表す。このとき、シンドロームＳ_ｊは次のように定義される。

And B [i] (i = 0 to 247) represents one byte and corresponds to 8 bits. Here, the data size of one symbol is one byte. B [0] to B [215] represent a data portion indicating content (for example, video) and the like, and B [216] to B [247] represent a parity portion. At this time, the syndrome S _j is defined as follows.

ただし、ｊ＝０〜３１である。

Here, j = 0 to 31.

If the syndrome _Sj is 0 in step 1202, it is determined in step 1210 that all the symbols B [i] (i = 0 to 247) have no error, and the erasure error correction processing ends. If the syndrome _Sj is not 0, the process proceeds to the next step 1203.

In step 1203, an error locator polynomial is derived using the syndrome _Sj and the erasure location information. The error location polynomial is a polynomial (Equation 5) having the root of the reciprocal of the error locations L1, L2,..., Lm (m is the number of errors + erasures).

The coefficients of the error locator polynomial are defined by the syndrome _Sj and the erasure position information. A Peterson method for solving a simultaneous equation using a matrix of a coefficient of an error locator polynomial, a syndrome _Sj , and erasure position information, and a Euclidean method for solving the simultaneous equation using a polynomial equation The coefficient of the error locator polynomial is obtained using an algorithm such as the BM method or the BM method.

If the coefficients of the error locator polynomial are determined in step 1204, the process proceeds to the next step 1205. If not found, since more errors than the correctable number have occurred, it is determined that correction is impossible in step 1209, and the erasure error correction processing ends.

In step 1205, the root of α of the primitive polynomial (Equation 1) is sequentially substituted into the error locator polynomial by the −ith power (i = 0 to 247), and k at which the solution of the error locator polynomial becomes 0 is obtained. An erroneous position (that is, an error position) is obtained. The symbol corresponding to the error position is represented as (Equation 9).

　ステップ１２０６で、誤り位置を求める計算が可能であったならば、次のステップ１２０７に進む。計算が不可能であったならば、ステップ１２０９で訂正不能と判定し、消失誤り訂正処理を終了する。

If it is determined in step 1206 that an error position can be calculated, the process proceeds to the next step 1207. If the calculation is not possible, it is determined in step 1209 that the correction is not possible, and the erasure error correction processing ends.

In step 1207, an error value is calculated by solving a simultaneous equation among the error position obtained in steps 1205 and 1206, the syndrome _Sj, and the erasure position information.

In step 1208, the symbol B [247-k] is corrected by subtracting the error value obtained in step 1207 from the data value corresponding to the error position obtained in steps 1205 and 1206, and the erasure error correction processing is performed. To end.

As described above, in the first embodiment, when an error is detected in the first symbol included in the first encoded data having a high degree of redundancy, or when synchronization data cannot be detected (FIG. 9), The first symbol in which an error has been detected or the second symbol arranged in the vicinity of the synchronization data in which the error has not been detected is determined to be erasure because the possibility of an error is high. If the synchronous data is detected with a positional shift (FIG. 10), the symbol included in the coded data arranged before the synchronous data is determined to be lost because the possibility of an error is high. Then, it is determined that the symbol included in the encoded data arranged after the synchronization data is not an erasure since the possibility of an error is low. If the synchronization data that could not be detected and the synchronization data that was detected with a positional deviation are continuous (FIG. 11), the data read during that time until the next correct synchronization data is detected. Since there is a high possibility that the symbol is an error, the symbols included in all the encoded data between the consecutive synchronization data are determined as erasures. With these methods, the erasure position can be determined with higher accuracy, and the error correction capability can be improved.

(Embodiment 2)
An error correction method according to Embodiment 2 of the present invention will be described with reference to the composite coded data 203 shown in FIG. 2 as an example of the composite coded data.

FIG. 13 shows a flowchart 130 illustrating an error correction method for composite encoded data 203 in the present embodiment. The same steps as those shown in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

The difference from the flowchart 10 shown in FIG. 1 is that if the error of the second coded data cannot be corrected in step 105, the repeated erasure error correction is performed using the erasure position information generated by another erasure position information generation method. It is to do. In this embodiment, erasure error correction is repeatedly performed until all errors are corrected or the termination condition is satisfied.

Hereinafter, as one example of the erasure error correction processing according to the present embodiment, three erasure position information generation methods of a first erasure position information generation method, a second erasure position information generation method, and a third erasure position information generation method are used, and the process ends. The erasure error correction that ends when all three erasure position information generation methods are used as conditions will be described. These three erasure position information generation methods are, for example, the methods described with reference to FIGS. 9, 10, and 11.

After executing the processes of steps 101, 102, and 103, in step 1301, first, the first erasure position information generation method is selected as the erasure position information generation method to be used.

In step 1302, the first erasure position information generation method is executed using the synchronization detection information and error position information generated in steps 101 and 103, to generate first erasure position information.

In step 105, erasure error correction of the second encoded data is performed using the first erasure position information generated in step 1302. The corrected second coded data is defined as first corrected data.

If it is determined in step 1303 that the second encoded data contains an error that could not be corrected, the process proceeds to step 1304. If all errors have been corrected, the error correction process ends.

In step 1304, since only one erasure position information generation method has been used, it is determined that the termination condition is not satisfied. Therefore, the process returns to step 1301 and selects a second erasure position information generation method different from the first erasure position information generation method used.

In step 1302, the second erasure position information generation method is executed using the synchronization detection information and error position information generated in steps 101 and 103, to generate second erasure position information.

In step 105, the first correction data is subjected to erasure error correction using the second erasure position information generated in step 1302. The corrected first corrected data is defined as second corrected data.

If it is determined in step 1303 that the first correction data contains an error that could not be corrected, the process proceeds to step 1304. If all errors have been corrected, the error correction process ends.

In step 1304, since only two erasure position information generation methods are used, it is determined that the termination condition is not satisfied. Therefore, the process returns to step 1301 to select a third erasure position information generation method different from the first erasure position information generation method and the second erasure position information generation method used.

In step 1302, the third erasure position information generation method is executed using the synchronization detection information and error position information generated in steps 101 and 103, to generate third erasure position information.

In step 105, erasure error correction is performed on the second correction data using the third erasure position information generated in step 1302.

{Circle around (1)} In step 1303, if the second correction data includes an error that could not be corrected, the process proceeds to step 1304. If all errors have been corrected, the error correction process ends.

で は In step 1304, since the three erasure position information generation methods are used, it is determined that the termination condition is satisfied. Therefore, the error correction processing ends.

In Embodiment 2, three erasure position information generation methods are used. However, the number of generation methods to be used may be at least two, and any erasure position information generation method may be used as long as erasure position information can be generated. Such a method may be used.

In step 1301 of the second embodiment, the erasure position information generation method is selected in the order of the first erasure position information generation method, the second erasure position information generation method, and the third erasure position information generation method. May not be corrected, the erasure position information generation method used earlier may be selected as long as it is not the erasure position information generation method used immediately before. Further, when the error can be corrected, the erasure position information generation method used at that time may be selected as the erasure position information generation method to be used first when generating the erasure position information of the next different second encoded data. Good. For example, when all errors can be corrected based on the first erasure position information, the same method as that used when generating the first erasure position information is used to correct another erasure error of the second encoded data. Generate erasure position information. When all errors can be corrected based on the second erasure position information, the same method as that used when generating the second erasure position information is used to correct the erasure error of another second encoded data. Generate erasure position information.

When the second and third erasure error corrections are performed, the erasure error correction is performed on the first correction data and the second correction data whose errors have been corrected by the previous erasure error correction, but the erasure error correction that has not corrected the error is performed. Erasure error correction may be performed on the two encoded data.

In the second embodiment, it is assumed that the termination condition is terminated when all three erasure position information generation methods are used. However, all the permutation combinations of the three erasure position information generation methods are covered, or the three erasure position information generation methods are not corrected. It is apparent that various procedures can be changed without departing from the spirit of the present invention, such as repeating the information generation method in order.

As described above, in Embodiment 2, erasure error correction is performed using erasure position information generated by a certain erasure position information generation method, and if there is an error that could not be corrected, another erasure position information generation method By repeatedly performing the erasure error correction using the erasure position information generated in step (1), an error that cannot be corrected by one erasure error correction can be corrected, thereby improving the error correction capability.

(Embodiment 3)
FIG. 14 is a diagram showing an information reproducing device 140 according to Embodiment 3 of the present invention. Information reproducing apparatus 140 executes the error correction method described in the first and second embodiments. 1, 2, 8, 9, 10, 11, 12, and 13 are referred to in the description of the present embodiment. Will be omitted. Mainly, an example of the operation of reproducing the composite coded data 203 by using the error correction method shown in FIG. 13 will be described.

The information reproducing apparatus 140 includes a reproduction control circuit 1402, a rewritable memory 1403, an error correction circuit 1408, a microcomputer 1411, and a program memory 1412. 2 is recorded on the recording medium 1401 along the recording direction 220 as an example of the composite encoded data.

The reproduction control circuit 1402 reads the composite encoded data from the recording medium 1401, and outputs a first encoded data, a second encoded data, and a plurality of pieces of synchronous data, and detects a state of the plurality of pieces of synchronous data. And a synchronization detection information generation unit 1402B that generates synchronization detection information indicating the detection result.

The rewritable memory 1403 includes a reproduction data area 1404, a synchronization detection information area 1405, an error position information area 1406, and an erasure position information area 1407. The error correction circuit 1408 includes a first error correction circuit 1409 and a second error correction circuit 1410. The first error correction circuit 1409 functions as an error position information generation unit that performs error correction on the first encoded data and generates error position information indicating an error position of the first encoded data. The second error correction circuit 1410 functions as an erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information. The microcomputer 1411 functions as an erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information.

(4) As the rewritable memory 1403, a static memory (for example, an SRAM) that does not require a data holding operation or a dynamic memory (for example, a DRAM) that requires a data holding operation may be used. In the third embodiment, one rewritable memory 1403 is shared by dividing an area. However, some rewritable memories may be provided in the information reproducing apparatus 140 and each data may be individually stored in them. .

(4) The program memory 1412 stores an erasure position information generation program 1413 and an end condition branching program 1414.

The erasure position information generation program 1413 is a program for causing the microcomputer 1411 to execute the erasure position information generation method described with reference to steps 1301 and 1302 in FIG. The microcomputer 1411 performs a process of generating erasure position information using the synchronization detection information and the error position information stored in the rewritable memory 1403, and storing the generated erasure position information in the erasure position information area 1407.

The termination condition branch program 1414 is a program that causes the microcomputer 1411 to execute the termination condition determination described with reference to steps 1303 and 1304 in FIG. When determining that the termination condition is satisfied, the microcomputer 1411 performs a process of terminating the error correction. When determining that the error correction is not satisfied, the microcomputer 1411 performs another erasure position information generation method based on the erasure position information generation program 1413. Run.

(4) The reading unit 1402A included in the reproduction control circuit 1402 reads the composite encoded data 203 from the recording medium 1401. When the reproduced first and second encoded data are interleaved, the reading unit 1402A performs deinterleaving, which is the inverse of interleaving. The reproduced first and second encoded data 201 and 202 are stored in the reproduced data area 1404. Note that the reproduction data area 1404 may be divided into an area for storing the first encoded data and an area for storing the second encoded data. A synchronization detection information generation unit 1402B included in the reproduction control circuit 1402 detects a plurality of pieces of synchronization data such as the synchronization data 204 and 205 and generates the synchronization detection information described with reference to step 101 in FIG. 1, for example. To generate the synchronization detection information 1402C. The synchronization detection information generation unit 1402B stores the generated synchronization detection information 1402C in the synchronization detection information area 1405.

The first error correction circuit 1409 performs error correction on the first encoded data 201 stored in the reproduction data area 1404, and performs the error position information generation method described with reference to steps 811 to 813 in FIG. Execute to generate error position information 1409A. The first error correction circuit 1409 stores the generated error position information 1409A in the error position information area 1406. The first error correction circuit 1409 performs the processing shown in the flowchart of FIG. 8 on the first encoded data 201 stored in the reproduction data area 1404, and stores the generated error position information 1409A in the error position information area 1406. Any circuit can be used as long as the circuit can be used.

(4) The microcomputer 1411 interprets and executes the lost position information generation program 1413 stored in the program memory 1412, generates lost position information 1411A, and stores the generated lost position information 1411A in the lost position information area 1407. If the microcomputer 1411 receives a notification from the second error correction circuit 1410 that the error could not be corrected, the microcomputer 1411 interprets and executes the termination condition branching program 1414 and determines that the termination condition is satisfied. If the error correction processing is completed and it is determined that the error is not satisfied, another erasure position information generation method indicated by the erasure position information generation program 1413 is interpreted and executed. As a result, the microcomputer 1411 generates another erasure position information 1411B to be used at the time of repeating the erasure error correction, and stores it in the erasure position information area 1407.

The second error correction circuit 1410 uses the erasure position information 1411A or 1411B stored in the erasure position information area 1407 to correct the erasure error of the second encoded data 202 stored in the reproduction data area 1404. I do. The second error correction circuit 1410 notifies the microcomputer 1411 of the correction result. Note that the second error correction circuit 1410 performs the processing shown in the flowchart of FIG. 12 on the second encoded data 202 stored in the reproduction data area 1404, and corrects the errors when executing steps 1208, 1209, and 1210, respectively. Any circuit may be used as long as it can notify the microcomputer 1411 of the fact that the correction was not possible and that there was no error.

In the third embodiment, the information reproducing apparatus that reproduces the first encoded data 201 and the second encoded data 202 by using the error correction method has been described. The configuration of the first encoded data 201 and the second encoded data 202 shown in FIG. 2 is merely an example, and the first error correction code and the second error correction code have a redundancy of the first error correction code of the second error correction code. Any code may be used as long as the code is higher than the correction code.

Part of the processing executed by the reproduction control circuit 1402 and the error correction circuit 1408 may be executed using software. Further, the processing executed using the erasure position information generation program 1413 and the end condition branch program 1414 may be realized by hardware without using the erasure position information generation program 1413 and the end condition branch program 1414.

(4) If all of the above processes are to be realized by hardware, one piece of hardware must be prepared for each of the plurality of erasure position information generation methods, and the scale of the hardware becomes large. In addition, it takes a long processing time to realize the software entirely. However, even if the erasure error correction is repeatedly performed by performing the process of generating the erasure position information using software and performing the other processes by hardware as in the third embodiment, Since it can be realized only by changing the program read from 1412, the scale of hardware can be reduced and the processing time can be reduced. The information reproducing apparatus 140 is superior in terms of development period and cost as compared with the case where all error correction processes are realized by hardware or all are realized by software.

According to the error correction method and the reproducing apparatus of the present invention, when an error is detected in the first symbol included in the first coded data having a high degree of redundancy, or when synchronization data cannot be detected, the error is detected. The determined first symbol or the second symbol arranged in the vicinity of the undetectable synchronization data is determined as an erasure since there is a high possibility of an error. Further, when the synchronization data is detected with a positional shift, the symbols included in the coded data arranged before the synchronization data are determined to be lost due to the high possibility of an error. It is determined that a symbol included in the encoded data arranged after the data is not an erasure since the possibility of an error is low. In addition, if the synchronization data that could not be detected and the synchronization data that was detected with a displacement are continuous, the data read during that time is erroneous until the next synchronization data is correctly detected. Since the possibility is high, the symbols included in all the coded data between the continuous synchronization data are determined as erasures. With these methods, the erasure position can be determined with higher accuracy, and the error correction capability can be improved.

As described above, the error correction method and the reproducing apparatus of the present invention are useful, for example, for correcting errors in composite coded data.

5 is a flowchart illustrating an example of an error correction method for composite encoded data according to Embodiment 1 of the present invention. Diagram showing the structure of composite encoded data Flowchart showing an error correction method for composite encoded data The figure showing the state of the synchronous data or the 1st symbol when the 2nd encoding data in an error correction method disappears The figure showing the state of the synchronous data or the 1st symbol when the 2nd encoding data in an error correction method disappears The figure showing the state of the synchronous data or the 1st symbol when the 2nd encoding data in an error correction method disappears Diagram showing an example of an error included in composite encoded data 9 is a flowchart illustrating an example of a method for correcting an error in first encoded data and generating error position information according to Embodiment 1 of the present invention. FIG. 7 is a diagram illustrating a state of synchronization data or a first symbol according to the first embodiment of the present invention. FIG. 7 is a diagram illustrating a state of synchronization data or a first symbol according to the first embodiment of the present invention. FIG. 7 is a diagram illustrating a state of synchronization data or a first symbol according to the first embodiment of the present invention. 9 is a flowchart illustrating an example of a method for correcting erasure error of second encoded data according to Embodiment 1 of the present invention. 9 is a flowchart illustrating an example of an error correction method for composite encoded data according to Embodiment 2 of the present invention. The figure which shows an example of the information reproducing device in Embodiment 3 of this invention.

Explanation of reference numerals

201 First coded data error-corrected by 24 first error correction codes 202 Second coded data error-corrected by 304 second error correction codes 203 Composite coded data 204, 205 Synchronous data 206 to 211 First encoded data 212 to 219 Second encoded data 220, 404, 506, 610, 908, 1006, 1118 Recording direction 401, 402, 501 to 503, 601 to 605, 901 to 903 Synchronous data Or, the first symbols 403, 504, 505, 606 to 609, 904, 905, 1110 to 1117, the second coded data 701 to 703 to be lost, the first coded data or the synchronization data 704 to 709, the second coded data 906 907, 1005 Second coded data 1001, 1 which is not lost 03 Synchronized data 1002, 1003, 1104 to 1109 detected out of sync First symbol 1101, 1102 Synchronous data 1401 Recording medium 1402 Reproduction control circuit 1403 Rewritable memory 1404 Reproduction data area 1405 Synchronization detection information area 1406 Error position information area 1407 Erasure Position information area 1408 Error correction circuit 1409 First error correction circuit 1410 Second error correction circuit 1411 Microcomputer 1412 Program memory 1413 Erasure position information generation program 1414 Termination condition branch program

Claims (70)

A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one of the plurality of second symbols is arranged between adjacent first symbols of the plurality of first symbols,
The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol;
The reproduction method includes:
A step of reading the composite encoded data from the recording medium and outputting the first encoded data and the second encoded data;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
The erasure position information generating step includes detecting that no error has been detected in the N-th first symbol and the (N + 2) -th first symbol, and that the error has been detected in the (N + 1) -th first symbol. If the information indicates, at least one of a plurality of second symbols arranged adjacent to the (N + 1) th first symbol is determined to be lost. The erasure position information generating step includes detecting that no error has been detected in the N-th first symbol and the (N + 2) -th first symbol, and that the error has been detected in the (N + 1) -th first symbol. If the information indicates, the information is arranged adjacent to the (N + 1) -th first symbol among at least one second symbol arranged between the (N) -th first symbol and the (N + 1) -th first symbol. The at least one second symbol determined to be lost is determined to be an erasure, and the (N + 1) -th symbol of the at least one second symbol arranged between the (N + 1) -th first symbol and the (N + 2) -th first symbol is determined. The reproducing method according to claim 1, further comprising determining that at least one second symbol arranged adjacent to one symbol is lost. The erasure position information generating step includes, when the error position information indicates that an error has been detected in both of the two first symbols adjacent to each other, the two first symbols in which the error has been detected. The reproduction method according to claim 1, further comprising a step of determining that all second symbols arranged therebetween are lost. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least two of the plurality of second symbols are arranged between adjacent first symbols of the plurality of first symbols,
The reproduction method includes:
A step of reading the composite encoded data from the recording medium and outputting the first encoded data and the second encoded data;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
The erasure position information generating step, when the error position information indicates that the first symbol in which the error is not detected and the first symbol in which the error is detected are adjacent, the error is not detected. At least one of the at least two second symbols arranged between the first symbol and the first symbol in which the error is detected, the at least one second symbol being arranged adjacent to the first symbol in which the error is detected. A reproducing method, comprising: determining that two symbols are erasures, and determining that at least one second symbol arranged adjacent to the first symbol in which the error has not been detected is not erasure. The erasure position information generating step includes, when the error position information indicates that an error has been detected in both of the two first symbols adjacent to each other, the two first symbols in which the error has been detected. 5. The reproducing method according to claim 4, further comprising the step of determining that all second symbols arranged therebetween are lost. A reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data,
The reproduction method includes:
A reading step of reading the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An erasure position information generation step of generating erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information,
The erasure position information generating step includes detecting the Nth synchronization data and the (N + 2) th synchronization data, and when the synchronization detection information indicates that the (N + 1) th synchronization data has not been detected, A reproduction method, comprising: determining that at least one of a plurality of symbols arranged adjacent to the (N + 1) th synchronization data is lost. The erasure position information generating step includes detecting the Nth synchronization data and the (N + 2) th synchronization data, and when the synchronization detection information indicates that the (N + 1) th synchronization data has not been detected, At least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is determined to be lost, and Determining at least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data as erasure; The reproduction method according to claim 6, further comprising: The lost position information generating step is arranged between the two undetected synchronization data when the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected. The reproducing method according to claim 6, further comprising a step of determining that all the symbols that have been lost are lost. A reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least two of the plurality of symbols are arranged between adjacent ones of the plurality of synchronization data,
The reproduction method includes:
A reading step of reading the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An erasure position information generation step of generating erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information,
The lost position information generating step includes, if the synchronization detection information indicates that synchronization data adjacent to the detected synchronization data has not been detected, the detected synchronization data and the undetected synchronization At least one symbol arranged adjacent to the undetected synchronization data among at least two symbols arranged between the data is determined to be lost, and arranged at least adjacent to the detected synchronization data. And determining that at least one of the performed symbols is not an erasure. The lost position information generating step is arranged between the two undetected synchronization data when the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected. The reproduction method according to claim 9, further comprising a step of determining that all the symbols that have been lost are lost. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The reproduction method includes:
Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
In the erasure position information generation step, the synchronization detection information indicates that there is undetected synchronization data, and no error has been detected in the first symbol adjacent to each of both sides of the undetected synchronization data. The error position information indicates that at least one of a plurality of second symbols arranged adjacent to the undetected synchronization data is lost. At least two first symbols are arranged between adjacent ones of the plurality of synchronization data,
At least one second symbol is arranged between adjacent ones of the at least two first symbols,
In the erasure position information generating step, the error position information indicates that there is a first symbol in which an error has been detected, and the detected synchronization data and error information are provided on both sides of the first symbol in which the error has been detected. If at least one of the error position information and the synchronization detection information indicates that one of the first symbols for which no error has been detected is adjacent, the first symbol for which the error has been detected is adjacent. The reproducing method according to claim 11, further comprising determining that at least one of the arranged second symbols is lost. A reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The reproduction method includes:
A reading step of reading the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An erasure position information generation step of generating erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information,
The erasure position information generating step includes a step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the Nth synchronization data and the (N + 1) th synchronization data. And determining that at least one of the symbols arranged in the erasure is lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
The erasure position information generating step includes the step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the (N + 1) th synchronization data and the (N + 2) th synchronization data. 14. The reproducing method according to claim 13, further comprising a step of determining that at least one of the symbols arranged in is not an erasure. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The reproduction method includes:
Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
The erasure position information generating step includes a step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the Nth synchronization data and the (N + 1) th synchronization data. And determining that at least one of the second symbols arranged in (1) is lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
The erasure position information generating step includes the step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the (N + 1) th synchronization data and the (N + 2) th synchronization data. The reproducing method according to claim 15, further comprising a step of determining that at least one second symbol arranged in (i) is not an erasure. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
A predetermined first symbol is arranged between the Nth synchronization data and the (N + 1) th synchronization data,
The reproduction method includes:
Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
The erasure position information generating step includes, when the synchronization detection information indicates that the (N + 1) -th synchronization data has been detected as being out of position, between the predetermined first symbol and the (N + 1) -th synchronization data. And determining that at least one of the second symbols arranged in (1) is lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
Another predetermined first symbol is arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data,
The erasure position information generating step may include, if the synchronization detection information indicates that the (N + 1) th synchronization data has been detected with a positional shift, the (N + 1) th synchronization data and the another predetermined first symbol The reproduction method according to claim 17, further comprising a step of determining that at least one second symbol arranged during the period is not an erasure. A reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The reproduction method includes:
A reading step of reading the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An erasure position information generation step of generating erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction step of performing an erasure error correction of the encoded data based on the erasure position information,
The erasure position information generating step may include, if the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuously present, the continuous synchronization A reproducing method, comprising a step of determining that at least one symbol arranged between data is lost. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The reproduction method includes:
Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on the erasure position information.
The erasure position information generating step may include, if the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuously present, the continuous synchronization A reproduction method, comprising a step of determining that at least one second symbol arranged between data is lost. 21. The reproducing method according to claim 20, wherein the erasure position information generating step further includes a step of determining that at least one first symbol arranged between the continuous synchronization data is erasure. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one of the plurality of second symbols is arranged between adjacent first symbols of the plurality of first symbols,
The reproduction method includes:
A step of reading the composite encoded data from the recording medium and outputting the first encoded data and the second encoded data;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction step includes, when there is an error that cannot be corrected based on the first erasure position information, performing erasure error correction of the second encoded data based on the second erasure position information. A playback method, comprising the step of performing. The lost position information generating step includes:
If all errors can be corrected based on the first erasure position information, the erasure error correction of another second encoded data is performed using the same method as that used when the first erasure position information is generated. Generating vanishing position information for
When all errors can be corrected based on the second erasure position information, the same method as that used when generating the second erasure position information is used to correct the erasure error of another second encoded data. Generating the erasure position information for the reproduction. The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol;
The erasure position information generating step includes detecting that no error has been detected in the N-th first symbol and the (N + 2) -th first symbol, and that the error has been detected in the (N + 1) -th first symbol. 23. The reproducing method according to claim 22, further comprising, if the information indicates, determining that at least one of a plurality of second symbols arranged adjacent to the (N + 1) -th first symbol is lost. A reproduction method for reproducing the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The reproduction method includes:
A reading step of reading the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An erasure position information generating step of generating at least first erasure position information and second erasure position information indicating an erasure position of the encoded data based on the synchronization detection information;
A erasure error correction step of performing erasure error correction of the encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction step is a step of, when there is an error that cannot be corrected based on the first erasure position information, performing an erasure error correction of the encoded data based on the second erasure position information. A playback method, including: The lost position information generating step includes:
When all errors can be corrected based on the first erasure position information, the same method as that used when generating the first erasure position information is used to correct the erasure error of another encoded data. Generating vanishing position information;
If all errors can be corrected based on the second erasure position information, the same method as that used when generating the second erasure position information is used to correct the erasure error of another encoded data. Generating the erasure position information. The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data,
The erasure position information generating step includes detecting the Nth synchronization data and the (N + 2) th synchronization data, and when the synchronization detection information indicates that the (N + 1) th synchronization data has not been detected, 26. The reproducing method according to claim 25, further comprising: determining that at least one of a plurality of symbols arranged adjacent to the (N + 1) th synchronization data is lost. The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The erasure position information generating step includes a step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the Nth synchronization data and the (N + 1) th synchronization data. 26. The reproducing method according to claim 25, further comprising a step of determining that at least one symbol arranged in (i) is lost. The erasure position information generating step may include, if the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuously present, the continuous synchronization 26. The reproducing method according to claim 25, further comprising a step of determining that at least one symbol arranged between data is lost. A reproduction method for reproducing the composite encoded data from a recording medium on which composite encoded data is recorded,
The composite coded data is error-corrected using a first coded data error-corrected using a first error-correcting code and a second error-correcting code having lower redundancy than the first error-correcting code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The reproduction method includes:
Reading the composite encoded data from the recording medium and outputting the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generating step of detecting a state of the plurality of synchronization data and generating synchronization detection information indicating the detection result;
An error position information generating step of performing error correction of the first encoded data and generating error position information indicating an error position of the first encoded data;
An erasure position information generating step of generating at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction step of performing an erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction step includes, when there is an error that cannot be corrected based on the first erasure position information, performing erasure error correction of the second encoded data based on the second erasure position information. A playback method, comprising the step of performing. The lost position information generating step includes:
If all errors can be corrected based on the first erasure position information, the erasure error correction of another second encoded data is performed using the same method as that used when the first erasure position information is generated. Generating vanishing position information for
When all errors can be corrected based on the second erasure position information, the same method as that used when generating the second erasure position information is used to correct the erasure error of another second encoded data. Generating the erasure position information for the reproduction. In the erasure position information generation step, the synchronization detection information indicates that there is undetected synchronization data, and no error has been detected in the first symbol adjacent to each of both sides of the undetected synchronization data. 31. The method according to claim 30, further comprising, when the error position information indicates that at least one of a plurality of second symbols arranged adjacent to the undetected synchronization data is lost. The playback method described. At least two first symbols are arranged between adjacent ones of the plurality of synchronization data,
At least one second symbol is arranged between adjacent ones of the at least two first symbols,
In the erasure position information generating step, the error position information indicates that there is a first symbol in which an error has been detected, and the detected synchronization data and error information are provided on both sides of the first symbol in which the error has been detected. If at least one of the error position information and the synchronization detection information indicates that one of the first symbols for which no error has been detected is adjacent, the first symbol for which the error has been detected is adjacent. 31. The reproducing method according to claim 30, further comprising a step of determining that at least one of the arranged second symbols is lost. The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The erasure position information generating step includes a step of, when the synchronization detection information indicates that the (N + 1) th synchronization data is detected as being out of position, between the Nth synchronization data and the (N + 1) th synchronization data. 31. The reproducing method according to claim 30, further comprising the step of determining that at least one second symbol arranged in (i) is lost. The erasure position information generating step may include, if the synchronization detection information indicates that at least one of the undetected synchronization data and the synchronization data detected as being shifted in position is continuously present, the continuous synchronization 31. The reproducing method according to claim 30, further comprising a step of determining that at least one second symbol arranged between data is lost. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one of the plurality of second symbols is arranged between adjacent first symbols of the plurality of first symbols,
The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol;
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data and the second encoded data;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
When the error location information indicates that no error is detected in the N-th first symbol and the (N + 2) -th first symbol and an error is detected in the (N + 1) -th first symbol, The reproducing device, wherein the erasure position information generation unit determines that at least one of a plurality of second symbols arranged adjacent to the (N + 1) -th first symbol is an erasure. When the error location information indicates that no error is detected in the N-th first symbol and the (N + 2) -th first symbol and an error is detected in the (N + 1) -th first symbol, The erasure position information generation unit may be arranged adjacent to the (N + 1) -th first symbol of at least one second symbol arranged between the (N) -th first symbol and the (N + 1) -th first symbol. The at least one second symbol arranged is determined to be lost, and the (N + 1) th symbol among the at least one second symbol arranged between the (N + 1) th first symbol and the (N + 2) th first symbol is determined. 37. The reproducing apparatus according to claim 36, wherein at least one second symbol arranged adjacent to the first symbol is determined to be lost. If the error location information indicates that an error has been detected in both of the two first symbols adjacent to each other, the erasure location information generation unit may include two first symbols in which the error is detected. 37. The reproducing apparatus according to claim 36, wherein all the second symbols arranged between the symbols are determined to be lost. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least two of the plurality of second symbols are arranged between adjacent first symbols of the plurality of first symbols,
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data and the second encoded data;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
When the error position information indicates that the first symbol in which no error is detected and the first symbol in which the error is detected are adjacent to each other, the erasure position information generation unit determines that the error has been detected. At least one of at least two second symbols arranged between the first symbol that has not been detected and the first symbol in which the error has been detected is arranged adjacent to the first symbol in which the error has been detected. A reproduction apparatus that determines that a second symbol is an erasure and determines that at least one second symbol arranged adjacent to the first symbol in which the error has not been detected is not an erasure. If the error location information indicates that an error has been detected in both of the two first symbols adjacent to each other, the erasure location information generation unit may include two first symbols in which the error is detected. 40. The reproducing apparatus according to claim 39, wherein all the second symbols arranged between the symbols are determined to be lost. A playback device that plays back the encoded data from a recording medium on which a plurality of synchronization data and error-correction-encoded encoded data are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data,
The playback device,
A reading unit that reads the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction unit that performs erasure error correction of the encoded data based on the erasure position information,
If the synchronization detection information indicates that the Nth synchronization data and the (N + 2) th synchronization data have been detected and the (N + 1) th synchronization data has not been detected, the erasure position information generation unit may include: A reproducing apparatus, wherein at least one of a plurality of symbols arranged adjacent to the (N + 1) th synchronization data is determined to be lost. If the synchronization detection information indicates that the Nth synchronization data and the (N + 2) th synchronization data have been detected and the (N + 1) th synchronization data has not been detected, the erasure position information generation unit may include: It is determined that at least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the Nth synchronization data and the (N + 1) th synchronization data is lost, At least one symbol arranged adjacent to the (N + 1) th synchronization data among at least one symbol arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data is determined to be lost. 42. The playback device according to claim 41. If the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected, the lost position information generation unit arranges between the two undetected synchronization data. 42. The reproducing apparatus according to claim 41, wherein all of the performed symbols are determined to be lost. A reproducing apparatus that reproduces the encoded data from a recording medium on which a plurality of synchronous data and encoded data subjected to error correction encoding are recorded,
The encoded data includes a plurality of symbols,
At least two of the plurality of symbols are arranged between adjacent ones of the plurality of synchronization data,
The playback device,
A reading unit that reads the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction unit that performs erasure error correction of the encoded data based on the erasure position information,
If the synchronization detection information indicates that synchronization data adjacent to the detected synchronization data has not been detected, the lost position information generation unit may determine that the detected synchronization data and the detection have not been detected. At least one symbol arranged adjacent to the undetected synchronization data among at least two symbols arranged between the synchronization data is determined to be lost, and the at least one symbol arranged adjacent to the detected synchronization data is determined to be lost. A playback device that determines that at least one arranged symbol is not an erasure. If the synchronization detection information indicates that both of the two adjacent synchronization data have not been detected, the lost position information generation unit arranges between the two undetected synchronization data. The reproducing apparatus according to claim 44, wherein all the performed symbols are determined to be lost. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
The synchronization detection information indicates that undetected synchronization data exists, and the error position information indicates that no error was detected in the first symbol adjacent to each of both sides of the undetected synchronization data. In the reproduction apparatus, the erasure position information generation unit determines that at least one of the plurality of second symbols arranged adjacent to the undetected synchronization data is an erasure. At least two first symbols are arranged between adjacent ones of the plurality of synchronization data,
At least one second symbol is arranged between adjacent ones of the at least two first symbols,
The error position information indicates that a first symbol in which an error has been detected is present, and at least one of the error position information and the synchronization detection information is located on both sides of the first symbol in which the error has been detected. Indicates that one of the detected synchronization data and the first symbol for which no error has been detected is adjacent, the erasure position information generation unit determines that the first symbol in which the error has been detected is adjacent to the first symbol in which the error has been detected. 47. The reproducing apparatus according to claim 46, wherein at least one of the plurality of second symbols arranged as a result is determined to be lost. A playback device that plays back the encoded data from a recording medium on which a plurality of synchronization data and error-correction-encoded encoded data are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The playback device,
A reading unit that reads the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction unit that performs erasure error correction of the encoded data based on the erasure position information,
If the synchronization detection information indicates that the (N + 1) th synchronization data is detected with a positional shift, the lost position information generation unit determines whether the (N + 1) th synchronization data and the (N + 1) th synchronization data correspond to each other. A playback device that determines that at least one symbol arranged therebetween is lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
When the synchronization detection information indicates that the (N + 1) -th synchronization data is detected as being out of position, the erasure position information generation unit determines whether the (N + 1) -th synchronization data and the (N + 2) -th synchronization data have been detected. 49. The reproducing apparatus according to claim 48, wherein it is determined that at least one symbol arranged therebetween is not an erasure. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
If the synchronization detection information indicates that the (N + 1) th synchronization data is detected with a positional shift, the lost position information generation unit determines whether the (N + 1) th synchronization data and the (N + 1) th synchronization data correspond to each other. A playback device that determines that at least one second symbol arranged in between is determined to be lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
When the synchronization detection information indicates that the (N + 1) -th synchronization data is detected as being out of position, the erasure position information generation unit determines whether the (N + 1) -th synchronization data and the (N + 2) -th synchronization data have been detected. 51. The reproducing apparatus according to claim 50, wherein it is determined that at least one second symbol arranged therebetween is not an erasure. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between synchronous data adjacent to each other among the plurality of synchronous data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
A predetermined first symbol is arranged between the Nth synchronization data and the (N + 1) th synchronization data,
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
When the synchronization detection information indicates that the (N + 1) -th synchronization data is detected as being out of position, the erasure position information generation unit determines whether the predetermined first symbol and the (N + 1) -th synchronization data have been shifted. A playback device that determines that at least one second symbol arranged in between is determined to be lost. The plurality of synchronization data includes an (N + 2) th synchronization data,
Another predetermined first symbol is arranged between the (N + 1) th synchronization data and the (N + 2) th synchronization data,
When the synchronization detection information indicates that the (N + 1) -th synchronization data is detected as being out of position, the erasure position information generation unit determines the (N + 1) -th synchronization data and the another predetermined first symbol. 53. The reproducing apparatus according to claim 52, wherein it is determined that at least one second symbol arranged between the first and second symbols is not an erasure. A playback device that plays back the encoded data from a recording medium on which a plurality of synchronization data and error-correction-encoded encoded data are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The playback device,
A reading unit that reads the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the encoded data based on the synchronization detection information,
An erasure error correction unit that performs erasure error correction of the encoded data based on the erasure position information,
When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement is continuously present, the erasure position information generation unit may perform A playback device that determines that at least one symbol arranged between synchronization data is lost. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on the erasure position information,
When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement is continuously present, the erasure position information generation unit may perform A playback device that determines that at least one second symbol arranged between synchronization data is lost. 56. The reproducing apparatus according to claim 55, wherein the erasure position information generation unit determines that at least one first symbol arranged between the continuous synchronization data is erasure. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. And encoded second encoded data,
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one of the plurality of second symbols is arranged between adjacent first symbols of the plurality of first symbols,
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data and the second encoded data;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generating unit that generates at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information;
A erasure error correction unit that performs erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction unit, when there is an error that cannot be corrected based on the first erasure position information, performs erasure error correction of the second encoded data based on the second erasure position information. Do, playback device. If all errors can be corrected based on the first erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. Generate erasure position information for erasure error correction of encoded data,
If all errors can be corrected based on the second erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. 58. The reproducing apparatus according to claim 57, wherein erasure position information for erasure error correction of encoded data is generated. The plurality of first symbols include an N-th (N is an integer) first symbol, an (N + 1) -th first symbol, and an (N + 2) -th first symbol;
When the error location information indicates that no error is detected in the N-th first symbol and the (N + 2) -th first symbol and an error is detected in the (N + 1) -th first symbol, 58. The reproducing apparatus according to claim 57, wherein the erasure position information generation unit determines that at least one of a plurality of second symbols arranged adjacent to the (N + 1) th first symbol is erasure. A playback device that plays back the encoded data from a recording medium on which a plurality of synchronization data and error-correction-encoded encoded data are recorded,
The encoded data includes a plurality of symbols,
At least one of the plurality of symbols is arranged between adjacent ones of the plurality of synchronization data,
The playback device,
A reading unit that reads the plurality of synchronization data and the encoded data from the recording medium;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An erasure position information generation unit that generates at least first erasure position information and second erasure position information indicating an erasure position of the encoded data based on the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction unit performs erasure error correction of the encoded data based on the second erasure position information when there is an error that cannot be corrected based on the first erasure position information. Playback device. When all errors can be corrected based on the first erasure position information, the erasure position information generation unit performs another encoding using the same method as that used when generating the first erasure position information. Generate erasure position information for data erasure error correction,
When all errors can be corrected based on the second erasure position information, the erasure position information generation unit performs another encoding using the same method as that used when generating the second erasure position information. 61. The reproducing apparatus according to claim 60, wherein erasure position information for erasure error correction of data is generated. The plurality of synchronization data includes N-th (N is an integer) synchronization data, N + 1-th synchronization data, and N + 2-th synchronization data,
If the synchronization detection information indicates that the Nth synchronization data and the (N + 2) th synchronization data have been detected and the (N + 1) th synchronization data has not been detected, the erasure position information generation unit may include: 61. The reproducing apparatus according to claim 60, wherein at least one of a plurality of symbols arranged adjacent to the (N + 1) th synchronization data is determined to be lost. The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
If the synchronization detection information indicates that the (N + 1) th synchronization data is detected with a positional shift, the lost position information generation unit determines whether the (N + 1) th synchronization data and the (N + 1) th synchronization data correspond to each other. 61. The reproducing apparatus according to claim 60, wherein at least one of the symbols arranged therebetween is determined to be lost. When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement is continuously present, the erasure position information generation unit may perform 61. The playback device according to claim 60, wherein at least one symbol arranged between the synchronization data is determined to be lost. A reproducing apparatus for reproducing the composite encoded data from a recording medium on which the composite encoded data is recorded,
The composite coded data is composed of first coded data that has been subjected to error correction coding using a first error correction code, and error correction using a second error correction code having lower redundancy than the first error correction code. Including encoded second encoded data and a plurality of synchronization data;
The first encoded data includes a plurality of first symbols,
The second encoded data includes a plurality of second symbols,
At least one first symbol is arranged between adjacent ones of the plurality of synchronization data,
At least one of the plurality of second symbols is arranged between at least the synchronization data and the first symbol;
The playback device,
A reading unit that reads the composite encoded data from the recording medium and outputs the first encoded data, the second encoded data, and the plurality of synchronization data;
A synchronization detection information generation unit that detects states of the plurality of synchronization data and generates synchronization detection information indicating the detection result;
An error position information generation unit that performs error correction of the first encoded data and generates error position information indicating an error position of the first encoded data;
An erasure position information generation unit that generates at least first erasure position information and second erasure position information indicating an erasure position of the second encoded data based on the error position information and the synchronization detection information;
An erasure error correction unit that performs erasure error correction of the second encoded data based on at least one of the first erasure position information and the second erasure position information,
The erasure error correction unit, when there is an error that cannot be corrected based on the first erasure position information, performs erasure error correction of the second encoded data based on the second erasure position information. Do, playback device. If all errors can be corrected based on the first erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. Generate erasure position information for erasure error correction of encoded data,
If all errors can be corrected based on the second erasure position information, the erasure position information generation unit uses another method to generate another second erasure position information. 66. The reproducing apparatus according to claim 65, wherein erasure position information for erasure error correction of encoded data is generated. The synchronization detection information indicates that undetected synchronization data exists, and the error position information indicates that no error was detected in the first symbol adjacent to each of both sides of the undetected synchronization data. 66. The case of indicating that the lost position information generation unit determines that at least one of a plurality of second symbols arranged adjacent to the undetected synchronization data is lost. Playback device. At least two first symbols are arranged between adjacent ones of the plurality of synchronization data,
At least one second symbol is arranged between adjacent ones of the at least two first symbols,
The error position information indicates that a first symbol in which an error has been detected is present, and at least one of the error position information and the synchronization detection information is located on both sides of the first symbol in which the error has been detected. Indicates that one of the detected synchronization data and the first symbol for which no error has been detected is adjacent, the erasure position information generation unit determines that the first symbol in which the error has been detected is adjacent to the first symbol in which the error has been detected. 66. The reproducing apparatus according to claim 65, wherein at least one of the plurality of second symbols arranged as one another is determined to be lost. The plurality of synchronization data includes an Nth (N is an integer) synchronization data and an (N + 1) th synchronization data,
If the synchronization detection information indicates that the (N + 1) th synchronization data is detected with a positional shift, the lost position information generation unit determines whether the (N + 1) th synchronization data and the (N + 1) th synchronization data correspond to each other. 67. The reproducing apparatus according to claim 65, wherein at least one second symbol arranged therebetween is determined to be lost. When the synchronization detection information indicates that at least one of the synchronization data that has not been detected and the synchronization data that has been detected with a displacement is continuously present, the erasure position information generation unit may perform The playback device according to claim 65, wherein at least one second symbol arranged between the synchronization data is determined to be lost.

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