JPH088751A - Encoding method - Google Patents

Abstract

PURPOSE:To obtain a code which is suitable to a high density recording and is excellent in an error propagation characteristic by replacing a data row in which 1 is continuous with the other data row in which 1 is not continuous by a three-bit unit when the generation of the data row in which 1 is continuous in the data row after a conversion is detected. CONSTITUTION:Data bits 00, 01, 10 and 11 are defined as A to D, respectively. The data * C at the present point of time follows BCB, * C is converted into 100. When * C follows B and further, BC follows B, * C is converted into 000. Next, when the LSB of the channel bit 3-bit converting the 2-bit before *C is 1, * C is converted into 000. When B and * C and further C follow B and D and at least one of the first 2-bit of the first B and D conversion channel bit 3-bit is 1, * C is converted into 001. When A and C are before B, * C and B, * C is converted into 010. Also when B, D are before B, *C and B and the both first 2-bits of the conversion 3-bit are 0, * C is converted into 010. When * C follows B, * C is converted into 101.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital data encoding method used for recording and reproducing digital signals.

[0002]

2. Description of the Related Art Various encoding methods have been proposed for recording digital signals on recording media such as magnetic disks, magnetic tapes and optical disks. As one method,
There is a well-known run length control coding method (RLL coding).

This RLL coding is disclosed in Japanese Patent Laid-Open No. 52-128024.
(G06F5 / 02), Japanese Patent Laid-Open No. 2-119434 (H03M7 / 46), IEICE, IEICE Technical Report, Technical Report of IEICE.
It is well known as shown in "Basic study of digital VTR using 8-12 conversion recording code" by MR92-46 (1992.10) Umemoto et al. In particular, (1,7) RLL coding means that "0" is generated between adjacent "1" s in the coded bit string.
A minimum of one and a maximum of seven must be inserted. That is, the coding is such that "1" does not continue. The conversion rule is well known as shown in FIGS. 1 (a) and 1 (b).

As is well known, the maximum signal inversion interval (T _max ) of this (1,7) RLL encoding is 5.33T. Also, the minimum inversion interval (T _min ) is 1.33T, which is excellent.
The (1,7) RLL-encoded data is, for example, NRZI modulated and recorded.

[0005]

However, as is well known,
Since this (1,7) RLL encoding is a variable length code, its error propagation characteristic (EP) is generally worse than that of a fixed length code. The present invention proposes a coding method in which the maximum signal inversion interval (T _max ) and the minimum inversion interval (T _min ) are equal to each other, and the error propagation characteristic is good, as compared with the conventional (1,7) RLL encoding. To do.

[0006]

SUMMARY OF THE INVENTION The present invention is a 2-3 encoding method for dividing digital data into 2-bit data and converting each 2-bit data into 3-bit data. When it is detected that a data string in which "1" is continuous occurs, the converted data string is replaced with another data string in which "1" is not continuous in units of 3 bits.

Further, according to the present invention, in a 2-3 encoding method in which digital data is divided into 2-bit data and each 2-bit data is converted into 3-bit data, "0" is included in the data string after conversion. When it is detected that eight or more continuous data strings occur, the converted data string is replaced with another data string in which three or more "0" s are not continuous.

Further, according to the present invention, in a 2-3 encoding method in which digital data is divided into 2-bit data and each 2-bit data is converted into 3-bit data, "1" is included in the converted data string. When it is detected that a continuous data string is generated, this converted data string is set to "1" in 3-bit units.
Is replaced with another data string that is not continuous, and when it is detected that a data string in which eight or more "0" s are continuous occurs in the converted data string, the converted data string is converted into 3-bit units It is characterized in that both processes are performed for replacing with another data string in which 8 or more "0" s are not continuous.

The present invention is also an encoding method for converting 2 bits of each data bit of a binary data string into a code composed of 3 bits of channel bits, which is "00""01 of binary data bits. Assuming that "" 10 "" 11 "is represented as A, B, C, D, in principle, A is" 010 "and B is" 00 ".
Convert 1 ”, C to“ 100 ”,“ D ”to“ 000 ”, B
When BCBC follows, the first B is converted to “001”. In other cases, when B is followed by CBC, the first B is changed to “0”.
Converted to 10 ”, in other cases, when B is followed by BC, the first B is converted to“ 010 ”, otherwise, B
When C is followed by C and the last bit of the 3 channel bits converted from the previous 2 bits is 0, the first B is “000”
, And when C follows BCB, the last C
Is converted to “100”. In all other cases, when B is followed by C, and BC is followed, the first C is converted to “000”. In other cases, the two bits before C are converted. When the final 3 bits of the converted channel bit is 1, C is converted to “000”. In other cases, B or D is followed by B, then CC is followed by the beginning B or D. At least one of the first two bits of the three converted channel bits is
When it is 1, the first C is converted to “001”, and in other cases, even if B is followed by C and B is before A or C, or B or D Converted channel bit
When the first 2 bits of 3 bits are both 0, C after B is converted to “010”. In other cases, C after B is converted to C after B.
When continues, C is converted to “101”, and D is followed by B
CBC follows, and 2 bits before D are converted. When the last bit of 3 channel bits is 0, D is converted to “101”. In other cases, D follows BC and D In front of
Channel bit converted from 2 bits When the last bit of 3 bits is 0, D is converted to “100”. In other cases, D is converted
Is followed by A, B or D, and when the last bit of the channel bits 3 bits obtained by converting the 2 bits before D is 0, D is converted to "101".

Further, the present invention is an encoding method for converting 2 bits of each data bit of a binary data string into a code composed of 3 bits of a channel bit.
Codes characterized by the following methods (i) (ii) (iii) (iv) when 00 ”” 01 ”” 10 ”” 11 ”are represented as A, B, C, D respectively (I) When the current data is A, convert this A to “010”.

(Ii) When the current data is B and this BC is followed by BCBC, this present B is converted to "001", and in other cases, when this B is followed by CBC, Current B to "01
If the current B is followed by BC in all other cases, this current B is converted to “010”. In all other cases, the current B is converted to “010”.
When B is followed by C, and the last bit of the 3 channel bits converted from the previous 2 bits is 0, the current B is set to "00".
It shall be converted to 0 ”. In other cases, the current B is changed to“ 00 ”.
Convert to 1 ”.

(Iii) The current data is C, and the current data comes after BCB.
When C continues, this current C is converted to “100”, otherwise, when B is followed by current C, and BC is followed by the current C,
C is converted to “000”, and in all other cases, the last 2 bits of the current C and the last 3 bits of the channel bit are converted to 1
In this case, the current C is converted to “000”, and in other cases, B or D is followed by B, followed by the current C and C, and the first B or D is converted into channel bit 3 When at least one of the first 2 bits is 1,
The channel in which the current C is converted to "001", and in other cases, the current C is followed by B, and B is before A or C, or even when it is B or D. When the first 2 bits of the 3 bits are both 0, the current C
Is converted to “010”, and in other cases, when the current C follows B, the current C is converted to “101”. In other cases, the current C is converted to “100”.

(Iv) The current data is D, and the current D is followed by BCB
When C is continued and the last bit of 3 channel bits obtained by converting the previous 2 bits of the current D is 0, the current D is set to “101”.
In all other cases, the current D is followed by BC and the last 2 bits of the current D are converted. When the final bit of the 3 bits is 0, the current D is converted to “100”. Then
In all other cases, the current D is followed by A or B or D,
When the last bit of the three channel bits obtained by converting the previous two bits of the current D is 0, the current D is converted to "101", and in other cases, the current D is converted to "000".

[0014]

According to the present invention, in the encoding method of 2-3 conversion, when it is detected that a data string in which "1" is continuous occurs in the converted data string, the converted data string is converted into 3
It is replaced with another data string in which "1" is not continuous in bit units. In the present invention, in the encoding method of 2-3 conversion,
When it is detected that a data string in which eight or more "0" s are continuous occurs in the converted data string, another data string in which this converted data string is not consecutive eight or more "0" s in 3-bit units is detected. Replace with.

According to the present invention, in the encoding method of 2-3 conversion, when it is detected that a data string in which "1" continues is generated in the converted data string, the converted data string is divided into 3-bit units. Replaces another data string in which "1" is not continuous, and when it is detected that a data string in which eight or more "0" s are continuous occurs in the converted data string, the converted data string is converted to 3 It is replaced with another data string in which 8 or more "0" s are not consecutive in bit units.

In the present invention, in the encoding method of 2-3 conversion, when binary data bits "00""01""10""11" are represented as A, B, C, D respectively, As a rule, A
Convert "010" B to "001" C to "100" D to "000", and when BCBC follows B, the first B is "001"
Otherwise, when B is followed by CBC,
Convert the first B to “010”, otherwise convert the first B to “010” when B follows BC, otherwise, convert B to C followed by C, and When the last bit of 3 channel bits converted from the previous 2 bits is 0, the first B is converted to “000”, and when the C is followed by BCB, the last C is converted to “100”. , Otherwise, B
When C is followed by C and then BC, the first C is “000”
In all other cases, the last 2 bits of C are converted, and when the last bit of 3 bits is 1, C
Is converted to “000”, otherwise, B or D is followed by B, then CC, and at least the first 2 bits of the 3 channel bits converted from the first B or D. When one is 1, the first C is converted to “001”, and in all other cases, B is followed by C, and B is before A or C or B or D. Even if the first 2 bits of the converted 3 channel bits are both 0, C after B is converted to “010”, and in other cases, when C follows B, C Converted to “101”, when BCBC follows D, and when the last bit of the 3 bits of the channel that converted 2 bits before D is 0, it is converted to “101”. In other cases , D followed by BC, and the channel bit 3 that is the converted 2 bits before D
When the last bit of the bit is 0, it is converted to “100”. In other cases, D is followed by A or B or D, and D
When the last bit of the 3 channel bits that is converted from the previous 2 bits is 0, it is converted to “101”.

According to the present invention, in the encoding method of 2-3 conversion for converting 2 bits of each data bit of the binary data string into a code composed of 3 bits of channel bits, "00""01" of the data bits. When "10" and "11" are represented as A, B, C, and D, respectively, they are converted by the following methods (i) (ii) (iii) (iv). (i) When the current data is A, convert this A to “010”.

(Ii) When the current data is B and this BC is followed by BCBC, this present B is converted to "001", and in other cases, when this B is followed by CBC, Current B to "01
If the current B is followed by BC in all other cases, this current B is converted to “010”. In all other cases, the current B is converted to “010”.
When B is followed by C, and the last bit of the 3 channel bits converted from the previous 2 bits is 0, the current B is set to "00".
It shall be converted to 0 ”. In other cases, the current B is changed to“ 00 ”.
Convert to 1 ”.

(Iii) The current data is C, the current data after the BCB.
When C continues, this current C is converted to “100”, otherwise, when B is followed by current C, and BC is followed by the current C,
C is converted to “000”, and in all other cases, the last 2 bits of the current C and the last 3 bits of the channel bit are converted to 1
In this case, the current C is converted to “000”, and in other cases, B or D is followed by B, followed by the current C and C, and the first B or D is converted into channel bit 3 When at least one of the first 2 bits is 1,
The channel in which the current C is converted to "001", and in other cases, the current C is followed by B, and B is before A or C, or even when it is B or D. When the first 2 bits of the 3 bits are both 0, the current C
Is converted to “010”, and in other cases, when the current C follows B, the current C is converted to “101”. In other cases, the current C is converted to “100”.

(Iv) The current data is D, and the current D is followed by BCB
When C is continued and the last bit of 3 channel bits obtained by converting the previous 2 bits of the current D is 0, the current D is set to “101”.
In all other cases, the current D is followed by BC and the last 2 bits of the current D are converted. When the final bit of the 3 bits is 0, the current D is converted to “100”. Then
In all other cases, the current D is followed by A or B or D,
When the last bit of the three channel bits obtained by converting the previous two bits of the current D is 0, the current D is converted to "101", and in other cases, the current D is converted to "000".

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. FIG. 3 is an encoding algorithm showing the features of this embodiment. That is, in the present embodiment, fixed length conversion of 2-3 conversion is performed by the algorithm of FIG.

That is, as shown in FIGS. 2 and 3, two bit data (D0, D1) to be converted are converted into three bit data (M0, M1, M2). In the present invention, each data bit 2 bits of the binary data string (whose period is T) is converted into data composed of 3 channel bits. Then, this conversion is performed using two bit data (D
0, D1), the preceding 6-bit data (DF to DA), the subsequent 8-bit data (D2 to D9), and the converted sign bit (M
It is converted by referring to (A, MB, ME, MF).

Note that this coded signal is further NRZ
It is I-modulated and recorded. Therefore, the signal is inverted at "1". At the time of decoding, decoding is performed according to the algorithm of FIG. In other words, the three channels of data (M0, M1, M2), the preceding 7-bit data (MG to MA), and the subsequent 6-bit data (M3 to M8) are referred to for a total of 16 bits and are then combined. .

The encoding of this embodiment will be described with reference to FIGS. In order to simplify the explanation, "00""01""10""11" of binary data bit (D0, D1) respectively
A, B, C and D will be described below. The principle of encoding by this 2-3 conversion is shown in FIG. In Figure 4, (NRZI)
Is a signal waveform when this converted data is NRZI modulated.

In this embodiment, as shown in FIG.
As a general rule, A is converted to “010”. Convert B to “001”. Convert C to “100”. Convert D to “000”.
Next, the conversion (special rule) in a special case will be described with reference to FIGS. In case of A, there are no special rules,
It is always converted to "010". Therefore, an example of encoding according to the B, C, and D special rules will be described. FIG. 5 shows an example of the B special rule. FIG. 6 shows an example of the special rule of C. FIG. 7 shows an example of the D special rule. The conversion target is shown in FIGS. The current 2-bit data (D0, D1) is marked with "*".

(B) 2 bits of data to be converted at present
The case where (D0, D1) is A will be described below. In this case, this
Always convert A to "010". (B) The case where the current 2-bit data to be converted is B will be described below. As shown in FIG. 5A, when BCBC follows this B (referred to as current B), the current B is converted to "001".

As shown in FIG. 5 (b), when the current B is followed by the CBC, the current B is converted to "010". As shown in FIG. 5C, when the current B is followed by the BC, the current B is converted to “010”. As shown in FIG. 5 (d), when the current B is followed by C, and the last bit of the 3 channel bits converted from the previous 2 bits is 0, the current B
Is converted to “000”. And the current B other than the above is "00".
Convert to 1 ”.

(C) The case where the 2-bit data to be converted at the present time is C will be described below. As shown in FIG. 6A, when this C (referred to as the present C) follows the BCB, the present C is converted to “100”. As shown in Fig. 6 (b), B is followed by current C, and then BC
When continues, the current C is converted to “000”.

As shown in FIG. 6 (c), when the last bit of the three channel bits obtained by converting the previous two bits of the current C is 1, the current
Convert C to “000”. As shown in FIG. 6 (d), B or D is followed by B, followed by the current C, and further by C, and at least one of the first 2 bits of the 3 channel bits converted from the first B or D. When is 1, the current C is “001”
And convert.

As shown in FIG. 6 (e), when the current C follows the B and the A before the B is A or C, the current C is converted to "010". In addition, even if the current C follows B, and even if the preceding B is B or D, the current C is also set when the first 2 bits of the converted 3 channel bits are both 0. "01
Convert to 0 ". When the current C follows B as shown in FIG. 6 (f), the current C is converted to" 101 ".

Then, the current C other than the above is converted to "100". (D) The case where the current 2-bit data to be converted is D will be described below. As shown in Fig. 7 (a), the current bit D is followed by BCBC, and the channel bit 3 obtained by converting the two bits before the current bit D is 3
When the last bit of the bit is 0, this current D is converted to “101”. As shown in FIG. 7B, when the current D is followed by BC, and the last bit of the 3 channel bits obtained by converting the 2 bits before D is 0, the current D is converted to "100".

As shown in FIG. 7C, the current D is followed by A or B or
When the last bit of 3 bits of the channel bit obtained by converting 2 bits before the current D is 0, the current D is “101”
And convert. Then, the current D other than the above is converted to “000”.

[0033]

According to the present invention, it is possible to realize a code having a good error propagation characteristic suitable for high density recording.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a conventional (1,7) RLL conversion.

FIG. 2 is a diagram for explaining the operation of the first embodiment of the present invention.

FIG. 3 is a diagram showing an encoding algorithm according to an embodiment of the present invention.

FIG. 4 is a diagram showing an example of encoding according to a basic rule of one embodiment of the present invention.

FIG. 5 is a diagram showing encoding according to the B special rule in this embodiment.

FIG. 6 is a diagram showing encoding according to a special rule of C in this embodiment.

FIG. 7 is a diagram showing encoding according to the D special rule in this embodiment.

FIG. 8 is a diagram showing a decoding algorithm of this embodiment.

[Explanation of symbols]

 (D0) (D1) 2-bit data, (M0) (M1) (M2) converted 3-bit data.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yoshihiro Hori 2-5-5 Keihan Hondori, Moriguchi City, Osaka Sanyo Electric Co., Ltd.

Claims (5)

[Claims] 1. Digital data is divided into every two bits,
In the encoding method for converting each 2-bit data into 3-bit data, when it is detected that a data string in which "1" continues is generated in the converted data string, the converted data string is converted into 3-bit units. The encoding method is characterized in that "1" is replaced with another data string that is not continuous. 2. Digital data is divided into two bits,
In the encoding method for converting each 2-bit data to 3-bit data, when it is detected that a data string in which eight or more "0" s are consecutive occurs in the converted data string, the converted data string is An encoding method characterized in that it is replaced with another data string in which 8 or more "0" s are not consecutive in 3-bit units. 3. Digital data is divided into 2 bits,
In the encoding method for converting each 2-bit data into 3-bit data, when it is detected that a data string in which "1" continues is generated in the converted data string, the converted data string is converted into 3-bit units. Replace the data string with another non-consecutive data string, and if it is detected that the data string after conversion has 8 or more consecutive "0" s, the converted data string is An encoding method characterized by performing both processes of replacing with another data string in which eight or more "0" s are not consecutive in bit units. 4. A coding method for converting 2 bits of each data bit of a binary data string into a code composed of 3 bits of a channel bit, which is "00""01""10" of binary data bits. Assuming that “11” is expressed as A, B, C, D, in principle, A is “010” B is “001” C is “100” D is “00”.
Converts corresponding to 0 ", and when BBC follows BCBC, converts the first B to" 001 ". In other cases, when B follows CBC, the first B
Is converted to “010”, and in other cases, when B is followed by BC, the first B is converted to “
Converted to 010 ”, and in other cases, when B is followed by C and the last bit of the 3 channel bits that converted 2 bits before B is 0, convert the first B to“ 000 ” When BCB is followed by C, the last C is converted to “100”. In all other cases, when B is followed by C and BC is continued, the first C is converted to “000”. However, in all other cases, when the last bit of the 3 channel bits converted from the 2 bits before C is 1, C is converted to “000”. In all other cases, B or D is followed by B Followed by C
When C continues and at least one of the first 2 bits of the 3 bits of the converted B or D is 1, the first C is converted to “001”. Even if C follows, and B precedes A or C, or even if B or D, the first two bits of the converted three channel bits are both 0
, Then C after B is converted to “010”, otherwise, when B is followed by C, C is converted to “101”, D is followed by BCBC, and When the last bit of 3 channel bits converted from 2 bits before D is 0, set D to 10
Converted to 1 ”, in all other cases, D is followed by BC, and the last 2 bits of the converted 3 bits of the channel bit before D are 0
When D is converted to “100”, in other cases, D is followed by A or B or D, and the last bit of the channel bit 3 bits converted from the 2 bits before D is 0 , D is converted to “101”. 5. A coding method for converting 2 bits of each data bit of a binary data string into a code composed of 3 bits of a channel bit, which is "00""01""10""11 of data bits. “A respectively,
An encoding method characterized by the following conversion when expressed as B, C, and D. (i) When the current data is A, convert this A to “010”. (ii) When the current data is B and BCBC follows this current B, this current B is converted to “001”. In other cases, when this current B is followed by CBC, this current B is converted.
Is converted to “010”, and in other cases, when current B is followed by BC, this current B
Is converted to “010”, and in all other cases, the current B is followed by C and the 2 before the current B
When the final bit of the three converted channel bits is 0, the current B is converted to "000". In other cases, the current B is converted to "001". (iii) When the current data is C and the current C follows BCB, this current C is converted to “100”. In other cases, when B is followed by current C and further BC is followed, Convert the current C to “000”, and in other cases, when the last bit of the 3 channel bits converted from the previous 2 bits of the current C is 1, the current C is converted to “0”.
00 ", otherwise B or D followed by B followed by the current C and C, and the first 2 bits of the 3 channel bits that converted the first B or D. When at least one is 1, the current C is converted to “001”. In other cases, the current C follows B, and the B before B is A.
Even if it is C or B or D, the first 2 bits of the 3 converted channel bits are both
When it is 0, the current C is converted to “010”. In other cases, when the current C follows B, the current C is changed to “10”.
It is assumed that the current C is converted to “10” in all other cases.
Converted to 0 ”. (Iv) When the current data is D, BCBC follows the current D, and the last bit of the 3 channel bits converted from the two bits before the current D is 0, the current D Is converted to “101”, in all other cases, the current D is followed by BC and the current D
When the final bit of the channel bit 3 bits that converted 2 bits is 0, the current D is converted to “100”, otherwise, the current D is followed by A or B or D,
When the last bit of the 3 channel bits obtained by converting the previous 2 bits of the current D is 0, the current D is converted to "101", and in other cases, the current D is converted to "000".