RU97100307A - MEDIA FOR RECORDING INFORMATION, METHOD AND DEVICE FOR TRANSMISSION OF INFORMATION, AND ALSO METHOD AND DEVICE FOR PLAYBACK - Google Patents

Claims (50)

1. An article of manufacture comprising a storage medium suitable for reproducing, having a code suitable for reproduction printed on it, said specified reproductive code in said product containing synchronization codes printed along the track at specific intervals between two synchronization codes, as well as information codes filling the specified interval between two synchronization codes, and the specified information code is generated using a variety of marks ON, representing the first level s binary code and marks OFF, representing a second level of a binary code, the maximum length of a continuous mark in said data codes being limited to a value T _max, and a minimum length of a continuous mark of said information code is limited to a value T _min, said synchronization code is formed by a plurality of marks ON, representing the first level of binary code, and OFF, representing the second level of binary code, the specified synchronization code contains an identifier, and eyuschy continuous mark with a predetermined length T _max + nT, where n is an integer equal to or greater than 2 and T - segment length representing one binary code. 2. The product according to claim 1, in which the specified length T _max equal to 14T. 3. The product according to claim 1, in which the specified length T _max equal to 13T.  4. The product according to claim 1, in which the value of the specified n is 2.  5. The product according to claim 1, in which the value of the specified n is 3.  6. The product according to claim 1, in which the specified synchronization code and the information code are generated using the conversion of the inverse signal non-returnable to zero (NVNI). 7. The product according to claim 1, in which the specified length T _min equal to 3T. 8. The product according to claim 1, in which the specified identifier contains the main sequence and the additional sequence that follows the specified main sequence, and the specified main sequence has a continuous mark with the first level with a bit length equal to T _max + nT, and the specified additional sequence has a continuous mark with the second level with a bit length equal to T _min + mT, where m is an integer equal to or greater than 0. 9. The product of claim 8, in which the specified length T _max + nT equal to 14T. 10. The product of claim 8, in which the specified length T _min + mT is 4T.  11. The product according to claim 1, in which these information codes are generated in the form of a sequence of code words obtained as a result of conversion 8-15, and the specified conversion 8-15 converts each 8-bit digital information word into a 15-bit code word.  12. The product according to claim 1, in which these information codes are generated using a sequence of code words obtained as a result of conversion 8-16, and the specified conversion 8-16 converts each 8-bit information word into a 16-bit code word.  13. The product according to claim 1, in which these marks corresponding to the state is turned ON, represent an information recess formed on the surface of the specified information medium.  14. The product according to claim 1, in which these marks corresponding to the state is turned ON, represent a change in the physical parameter on the surface of the specified information medium. 15. A method of transmitting information for transmitting source information, comprising the steps of:
(a) converting said source information into sequential information codes, said information codes being generated using a combination of first level binary codes and second level binary codes, wherein the maximum length of continuous binary codes of one level in said information codes is limited to T _max and the minimum the length of continuous binary codes of one level in the specified information codes is limited to the value of T _min ;
(b) generating a synchronization code, wherein said synchronization code is generated by combining first level binary codes and second level binary codes, said synchronization code comprising an identifier having continuous binary codes of one level with a predetermined length T _max + nT, where n is an integer equal to or greater than 2, and T is the length of the piece of information representing one binary code; and
(c) embedding said synchronization code with alternation in said sequence of information codes. 16. The method of transmitting information according to claim 15, wherein said length T _max is equal to 14T. 17. The method of transmitting information according to claim 15, wherein said length T _max is 13T.  18. The method of transmitting information according to claim 15, wherein said number n is 2.  19. The method of transmitting information according to claim 15, wherein said number n is 3.  20. The method of transmitting information according to claim 15, wherein said synchronization codes and information codes are generated by converting an inverse signal non-returnable to zero (NVNI). 21. The method of transmitting information according to claim 15, wherein said length T _min is 3T. 22. The method of transmitting information according to claim 15, wherein said identifier comprises a main sequence and an additional sequence immediately following said main sequence, the main sequence having a continuous first-level mark with a bit length T _max + nT, and said additional sequence has continuous mark of the second level with a bit length T _min + mT, where m is an integer equal to or greater than 0. 23. The product of claim 22, wherein said length T _max + nT is 14T. 24. The product of claim 22, wherein said length T _min + mT is 4T.  25. The method of transmitting information according to claim 15, wherein said information codes are generated as a sequence of code words obtained as a result of conversion 8-15, wherein each 8-bit digital information word is converted into a 15-bit code word by said conversion 8-15 .  26. The method of transmitting information according to claim 15, wherein said information codes are generated using a sequence of code words obtained as a result of conversion 8-16, wherein said conversion 8-16 converts each 8-bit digital information word into a 16-bit code word . 27. An information transmission device for transmitting source information, comprising conversion means for converting said source information into serial information codes, said information codes being generated using a combination of binary codes of the first level and binary codes of the second level, the maximum length of a continuous sequence of binary codes of one level in the indicated information codes is limited to the value of T _max , and the minimum length of a continuous binary sequence The code of one level in the indicated information codes is limited to T _min ; generating means for generating a synchronization code, wherein said synchronization code is generated using a combination of first level binary codes and second level binary codes, said synchronization code comprising an identifier having continuous binary codes of one level with a predetermined length T _max + nT, where n is an integer equal to or greater than 2, and T is the length of the piece of information representing the binary code; and also an implementation tool for implementing said synchronization code with alternation in said sequential information codes. 28. The device for transmitting information according to claim 27, wherein said length T _max is equal to 14T. 29. The device for transmitting information according to claim 27, wherein said length T _max is 13T.  30. A device for transmitting information according to claim 27, wherein said number n is 2.  31. A device for transmitting information according to claim 27, wherein said number n is 3.  32. The device for transmitting information according to claim 27, wherein said synchronization codes and information codes are generated as a result of processing an inverse signal (NVNI) that is not returnable to zero. 33. A device for transmitting information according to claim 27, wherein said length T _min is 3T. 34. The device for transmitting information according to claim 27, wherein said identifier contains a main sequence and an additional sequence that immediately follows the main sequence, said main sequence having a continuous first-level mark with a bit length T _max + nT, and said additional sequence has a continuous second level mark with a bit length of T _min + mT, where m is an integer equal to or greater than 0. 35. The product according to p. 34, in which the specified length T _max + nT equal to 14T. 36. The product according to claim 34, wherein said length T _min + mT is 4T.  37. The information transmission device according to claim 27, wherein said information codes are generated as a sequence of code words obtained as a result of conversion 8-15, said transformation 8-15 converting each 8-bit digital information word into a 15-bit code word .  38. The information transmission device according to claim 27, wherein said information codes are generated as a sequence of code words resulting from a conversion of 8-16, wherein said conversion of 8-16 converts each 8-bit digital information word into a 16-bit code word . 39. A method of reproducing information for reproducing source information from sequential information codes into which a synchronization code is alternately entered, wherein these serial information codes and synchronization codes are stored on a storage medium, these information codes are generated using a combination of binary codes of the first level and binary codes of the second level and the maximum length of a continuous sequence of binary codes of the same level in these information codes is limited to T _max , and the minimum length of a continuous sequence of binary codes of one level in these information codes is limited to a length of T _min , the specified synchronization code is formed as a combination of binary codes of the first level and binary codes of the second level, and the specified synchronization code contains an identifier having a continuous sequence of binary codes of the same level with a predetermined length T _max + nT, where n is an integer equal to or greater than 2, and T is the length of a piece of information representing one binary code; said method comprises the steps of:
(a) detecting said identifier by detecting said continuous sequence of binary codes of one level;
(b) separating said synchronization code from said information code; and
(c) reverse transforming the information code into source information.  40. The method of reproducing information according to claim 39, further comprising the step of: (d) reading information from the extracted synchronization code to determine the location of said information code that follows the extracted synchronization code. 41. The method of reproducing information according to claim 39, wherein said identifier comprises a main sequence and an additional sequence that follows the specified main sequence, said main sequence having a continuous first-level mark with a bit length T _max + nT, and said additional sequence has continuous mark of the second level with a bit length T _min + mT, where m is an integer equal to or greater than 0. 42. The method of reproducing information according to claim 41, wherein said detecting step (a) comprises the following steps:
(a1) generating a clock frequency with a bit repetition rate of a binary code;
(a2) counting said clock pulses during continuous binary codes of one level and subsequent continuous binary codes of another level; and
(a3) detecting said identifier when the counting results are equal to (T _max + nT) + (T _min + mT).  43. The method of reproducing information according to claim 42, further comprising the step of (e) controlling the frequency of said sequence of clock pulses by comparing said counting result with a predetermined number, and applying the difference between them to a voltage controlled oscillator.  44. The method of reproducing information according to claim 42, further comprising the step of controlling the rotation speed of the storage medium by comparing said counting result with a predetermined number and applying the difference between them to a drive for rotating the storage medium. 45. An information reproducing apparatus for reproducing source information from a sequence of information codes alternating with an entered synchronization code, wherein said sequence of information codes and synchronization codes are stored on an information carrier, said information codes are generated as a combination of first level binary codes and second level binary codes, moreover, the maximum length of a continuous sequence of binary codes of one level in these information codes is limited Xia length T _max, and a minimum length of a continuous binary codes of one level in said data codes being limited by the length T _min, said synchronization code is formed by a combination of binary codes of the first level and a binary second-level codes, said synchronization code comprising an identifier having continuous binary codes one level with a predetermined length T _max + nT, where n is an integer equal to or greater than 2, and T is a piece of information with a length representing one binary code; said device comprising: a detection device for detecting said identifier by detecting said continuous binary code of one level; separation means for separating said synchronization code from said information code; and an inverse transform means for inverting the information code into source information.  46. The information reproducing apparatus according to claim 45, further comprising a reader for reading out the synchronization code information for locating said information code following the detected synchronization code. 47. The information reproducing apparatus according to claim 45, wherein said identifier contains a main sequence and an additional sequence that follows the specified main sequence, said main sequence containing a continuous first-level mark with a bit length T _max + nT, and said additional sequence has continuous mark of the second level with a bit length T _min + mT, where m is an integer equal to or greater than 0. 48. The information reproducing apparatus according to claim 47, wherein said detecting means comprises generating means for generating a clock frequency with a bit rate of a binary code; counting means for counting the number of said clock pulses during a continuous sequence of binary codes of one level and the subsequent continuous sequence of binary codes of another level; and also means for detecting said identifier when the counting result becomes equal to (T _max + nT) + (T _min + mT).  49. The information reproducing apparatus according to claim 48, wherein said generating means comprises a comparison device for comparing said counting result with a predetermined number to obtain a difference between them, as well as a voltage controlled oscillator for controlling the frequency of said clock pulses using said difference.  50. The information reproducing apparatus according to claim 48, wherein said generating means comprises a drive control controller for controlling a rotational speed of the information medium by comparing said counting result with a predetermined number and rotating the information medium at a predetermined speed.