Dynamic information storage or retrieval – Information location or remote operator actuated control – Selective addressing of storage medium
Reexamination Certificate
1998-02-17
2001-11-20
Dinh, Tan (Department: 2651)
Dynamic information storage or retrieval
Information location or remote operator actuated control
Selective addressing of storage medium
C386S349000
Reexamination Certificate
active
06320826
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to the reproduction of a digitally encoded signal from a medium and in particular to the optimization of transducer repositioning.
BACKGROUND OF THE INVENTION
The introduction of disks recorded with digitally compressed audio and video signals, for example, utilizing MPEG compression protocols, offers the consumer sound and picture quality virtually indistinguishable from the original material. However, consumer users will expect such digital video disks or DVDs to offer features similar to those of their analog video cassette recorder or VCR. For example, a VCR may reproduce in either forward or reverse directions at speeds other than the recorded speed. Such non-standard speed playback features are also known as trick play modes. The provision of trick play features are less easily provided with MPEG encoded video signals due to the hierarchical nature of the compression which forms pictures into groups having varying degrees of compression. These groups are termed groups of pictures or GOPs, and require decoding in sequence. A detailed description of the MPEG 2 standard is published as ISO/IEC Standard 13818-2. However, in simple terms, an MPEG 2 signal stream may comprise three types of pictures having varying degrees of content compression. An intra-coded frame or I frame has the least compression of the three types and may be decoded without reference to any other frame. A predicted frame or P frame is compressed with reference to a preceding I or P frame and achieves greater degree of compression than an intra-coded frame. The third type of MPEG frame, termed a bi-directionally coded or B frame, may be compressed based on predictions from preceding and/or succeeding frames. Bi-directionally coded frames have the greatest degree of compression. The three types of MPEG frames are arranged in groups of pictures or GOPs. The GOP may for example contain 12 frames arranged as illustrated in FIG.
1
A. Since only an intra-coded frame is decodable without reference to any other frame, each GOP may only be decoded following the decoding of the I frame. The first predicted frame or P frame, may be decoded and stored based on modification of the stored, preceding I frame. Subsequent P frames may be predicted from the stored preceding P frame. The prediction of P frames is indicated in
FIG. 1A
by the curved, solid arrow head lines. Finally, bi-directionally coded or B frames may be decoded by means of predictions from preceding and or succeeding frames, for example, stored I and P frames. Decoding of B frames by predictions from adjacent stored frames is depicted in
FIG. 1A
by the curved, dotted arrow head lines.
The hierarchical nature of the coded frames comprising MPEG groups of pictures necessitates that the I and P frames of each GOP are decoded in the forward direction. Thus, reverse mode features may be provided by effectively jumping back to an earlier, or preceding I frame and then decoding in a forward direction through that GOP. The decoded frames being stored in frame buffer memories for subsequent read out in reverse to achieve the desired reverse program sequence.
FIG. 1B
illustrates play back in the forward direction at normal speed and at a time prior to time t
0
, a reverse three times speed mode trick play mode is selected. The trick play mode is initiated at time t
0
where I-frame I(
25
) is decoded and displayed. The next frame required for decoding is I-frame I(
13
), thus the transducer is repositioned, as indicated by arrow J
1
to acquire frame I(
13
). Having recovered and decoded I-frame I(
13
), the transducer tracks, as indicated by arrow J
2
to acquire and decode frame P(
16
). The process is repeated as indicated by arrows J
3
, J
4
. Following the acquisition and decoding of frame P (
22
) the transducer is moved as depicted by arrow Jn to recover frame I (
1
). To smoothly portray scene motion requires the decoding and display of I, P, and possibly B-frames. The jump and play process is repeated for preceding GOP, thereby progressing haltingly backwards through the records whilst smoothly portraying the program material in a reverse sequence at the video output.
The transducer is servo controlled to follow the recorded track and to maintain optical focus. In addition the transducer may be repositioned or jumped to a specific recorded sector of the track responsive to a sector address coupled to the transducer control servo system. Such a transducer jumps may result from parental guidance selection, alternative angle selection, user searching or trick mode reproduction. During trick mode reproduction at reverse play speed every recorded picture may be required to portray image motion smoothly, thus the transducer must move rapidly to acquire preceding pictures required for decoding. Coupling of the new, wanted sector address and the resultant transducer jump, occur at the signaled completion of current picture decoding. However, processing and buffering of the transduced bitstream introduce a significant delay prior to initiating picture decoding, thus delaying issuance of, and response to a new sector request.
SUMMARY OF THE INVENTION
In an inventive arrangement, delay in a transduced bitstream path is substantially obviated from a process for controlling a transducer position. During replay in digital disk apparatus a method comprises the steps of receiving a first and a second transducer address for controlling the transducer position responsive to a replayed address. Comparing the replayed address with the first transducer address to detect equality therebetween. In response to the detected equality moving the transducer to a new position determined by the second transducer address.
REFERENCES:
patent: 5691972 (1997-11-01), Tsuga et al.
patent: 5966352 (1999-10-01), Sawabe et al.
patent: 6006004 (1999-12-01), Moriyama et al.
patent: 6034942 (2000-03-01), Yoshio et al.
Schultz Mark Alan
Willis Donald Henry
Xie Jianlei
Davenport Francis A.
Dinh Tan
Fried Harvey D.
Thomson Licensing S.A.
Tripoli Joseph S.
LandOfFree
Transducer repositioning does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Transducer repositioning, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Transducer repositioning will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2608906