Dynamic information storage or retrieval – Control of storage or retrieval operation by a control... – Mechanism control by the control signal
Reissue Patent
1999-01-06
2001-08-14
Dinh, Tan (Department: 2752)
Dynamic information storage or retrieval
Control of storage or retrieval operation by a control...
Mechanism control by the control signal
C369S059160, C386S349000, C386S349000, C386S349000, C386S349000, C386S349000, C714S800000
Reissue Patent
active
RE037327
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a novel optical disk and, more particularly, to that disk, to a method of recording and reading information on the disk and to apparatus for carrying out that method.
Optical disks have been used as mass storage devices for computer applications, and such optical disks are known as CD-ROMs. The disk which is used as the CD-ROM is modeled after the standard compact disk (CD) that has been developed for audio applications and is basically an audio CD with various improvements and refinements particularly adapted for computer applications. Using such a CD as a standard, the CD-ROM has a data storage capacity of about 600 Mbytes. By using audio CD technology as its basis, the, CD-ROM and its disk drive have become relatively inexpensive and are quite popular.
However, since conventional audio CDs with their inherent format and storage capacity have been adapted for CD-ROMS, it has heretofore been difficult to improve the data storage capacity. In typical computer applications, a capacity of 600 Mbytes has been found to be insufficient.
Also, the data transfer rate that can be obtained from audio CDs generally is less than 1.4 Mbits/sec (Mbps). However, computer applications generally require a transfer rate far in excess of 1.4 Mbps; but it is difficult to attain a faster transfer rate with conventional CD-ROMS.
Yet another disadvantage associated with conventional CD-ROMs, and which is due to the fact that the audio CD format has been adapted for computer applications, is the relatively long access time associated with accessing a particular location on the disk. Typically, relatively long strings of data are read from audio CDs, whereas computer applications often require accessing an arbitrary location to read a relatively small amount of data therefrom. For example, accessing a particular sector may take too much time for the CD controller to identify which sector is being read by the optical pick-up.
A still further difficulty associated with CD-ROMs, and which also is attributed to the fact that such CD-ROMs are based upon audio CD technology, is the error correcting ability thereof. When audio data is reproduced from an audio CD, errors that cannot be corrected nevertheless can be concealed by using interpolation based upon the high correlation of the audio information that is played back. However, in computer applications, interpolation often cannot be used to conceal errors because of the low correlation of such data. Hence, the data that is recorded on a CD-ROM must be encoded and modulated in a form exhibiting high error correcting ability. Heretofore, data has been recorded on a CD-ROM in a conventional cross interleave Reed-Solomon code (CIRC) plus a so-called block completion error correction code. However, the block completion code generally takes a relatively long amount of time to decode the data, and more importantly, its error correction ability is believed to be insufficient in the event that multiple errors are present in a block. Since two error correction code (ECC) techniques are used for a CD-ROM, whereas only one ECC technique used for an audio CD (namely, the CIRC technique), a greater amount of non-data information must be recorded on the CD-ROM to effect such error correction, and this non-data information is referred to as “redundant” data. In an attempt to improve the error correction ability of a CD-ROM, the amount of redundancy that must be recorded is substantially increased.
Also, it is desirable to provide a standardized optical disk with the additional capability of having digital video information recorded thereon in a data-compressed format, such as MPEG-compressed video data and compressed audio data (or PCM audio data) that can be used as a digital video disk (DVD). But there currently are different MPEG compression techniques, or formats, available and more may be developed in the future. It is difficult to play back a video program from a DVD if the MPEG format that had been used to record that video program is not readily determined; and this problem is compounded if one DVD has recorded thereon different video programs exhibiting different MPEG formats as well as different audio formats.
OBJECTS OF THE INVENTION
Therefor, it is an object of the present invention to provide an improved optical disk having particular use as a DVD or CD-ROM which overcomes the aforenoted difficulties and disadvantages associated with CD-ROMs for which similar uses have been attempted heretofore.
Another object of this invention is to provide an optical disk which exhibits a higher access speed, thereby permitting quick access of arbitrary locations, such as sectors, to be accessed quickly.
A further object of this invention is to provide an improved optical disk having a higher transfer rate than the transfer rate associated with CD-ROMs heretofore used.
A further object of this invention is to improve the accessibility of different segments of video information, such as chapters, recorded on an optical disk, thereby making it more advantageous for use as a CD-ROM or as a DVD.
An additional object is to provide an improved optical disk which stores data with reduced redundancy.
Still another object of this invention is to provide an improved recording format for an optical disk which enhances the ability to identify and access the video information recorded thereon.
Another object of this invention is to provide an optical disk having a substantially improved recording density, thereby facilitating use of the disk as a CD-ROM or a DVD.
A further object of this invention is to provide an improved optical disk having video and audio data recorded in chapters, with each chapter being uniquely identified for quick access thereto and with the particular format of the recorded data being identified to permit compatible data recovery.
Various other objects, advantageous and features of the present invention will become readily apparent from the ensuing detailed description, and the novel features will be particularly pointed out in the appended claims.
SUMMARY OF THE INVENTION
In accordance with this invention, an optical disk, a method and apparatus for recording that disk and a method and apparatus for reading data from that disk are provided. The disk has a diameter of less than 140 mm, a thickness of 1.2 mm±0.1 mm, and a plurality of record tracks exhibiting a track pitch in the range between 0.646 &mgr;m and 1.05 &mgr;m with data recorded in those tracks as embossed pits. The tracks are divided into a lead-in area, a program area and a lead-out are, with table of content (TOC) information being recorded in at least one TOC track in the lead-in area and user information recorded in a plurality of user tracks in the program area. The user data preferably comprises MPEG-compressed video data and compressed audio data, encoded in any one of different MPEG formats and audio formats (such as PCM audio), and, advantageously, each track contains a chapter of user information. Application table of contents (ATOC) information is recorded in the program area to identify various parameters of the chapters of user information for accessing and using that information. The data (TOC, ATOC and user information) is encoded in a long distance error correction code having at least eight parity symbols, the encoded data being modulated and recorded on the disk. Preferably, the data is modulated as run length limited (RLL) data.
In the preferred embodiment, the data is recorded with a linear density in the range between 0.237 &mgr;m per bit and 0.378 &mgr;m per bit.
As one aspect of this invention, the ATOC information comprises fields of chapter data, each field being associated with a respective chapter and including information used to identify the location of that chapter, its name, the different formats of MPEG and audio compression exhibited by the video and audio data recorded in that chapter, and the locations in that chapter at which representative video pictures (useful for quick display) are recorded.
The er
Iwamura Ryuichi
Kawamura Makoto
Yonemitsu Jun
Yoshimura Shunji
Dinh Tan
Frommer William S.
Frommer Lawrence & Haug LLP.
Smid Dennis M.
Sony Corporation
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