Pulse or digital communications – Bandwidth reduction or expansion – Television or motion video signal
Reexamination Certificate
2000-04-07
2004-04-27
Philippe, Gims (Department: 2613)
Pulse or digital communications
Bandwidth reduction or expansion
Television or motion video signal
C375S240290, C382S261000
Reexamination Certificate
active
06728317
ABSTRACT:
TECHNICAL FIELD
This invention relates to electronic communication systems, and more particularly to an advanced electronic television system having temporal and resolution layering of compressed image frames having enhanced compression, filtering, and display characteristics.
BACKGROUND
The United States presently uses the NTSC standard for television transmissions. However, proposals have been made to replace the NTSC standard with an Advanced Television standard. For example, it has been proposed that the U.S. adopt digital standard-definition and advanced television formats at rates of 24 Hz, 30 Hz, 60 Hz, and 60 Hz interlaced. It is apparent that these rates are intended to continue (and thus be compatible with) the existing NTSC television display rate of 60 Hz (or 59.94 Hz). It is also apparent that “3-2, pulldown” is intended for display on 60 Hz displays when presenting movies, which have a temporal rate of 24 frames per second (fps). However, while the above proposal provides a menu of possible formats from which to select, each format only encodes and decodes a single resolution and frame rate. Because the display or motion rates of these formats are not integrally related to each other, conversion from one to another is difficult.
Further, this proposal does not provide a crucial capability of compatibility with computer displays. These proposed image motion rates are based upon historical rates which date back to the early part of this century. If a “clean-slate” were to be made, it is unlikely that these rates would be chosen. In the computer industry, where displays could utilize any rate over the last decade, rates in the 70 to 80 Hz range have proven optimal, with 72 and 75 Hz being the most common rates. Unfortunately, the proposed rates of 30 and 60 Hz lack useful interoperability with 72 or 75 Hz, resulting in degraded temporal performance.
In addition, it is being suggested by some that interlace is required, due to a claimed need to have about 1000 lines of resolution at high frame rates, but based upon the notion that such images cannot be compressed within the available 18-19 mbits/second of a conventional 6 MHz broadcast television channel.
It would be much more desirable if a single signal format were to be adopted, containing within it all of the desired standard and high definition resolutions. However, to do so within the bandwidth constraints of a conventional 6 MHz broadcast television channel requires compression and “scalability” of both frame rate (temporal) and resolution (spatial). One method specifically intended to provide for such scalability is the MPEG-2 standard. Unfortunately, the temporal and spatial scalability features specified within the MPEG-2 standard (and newer standards, like MPEG-4) are not sufficiently efficient to accommodate the needs of advanced television for the U.S. Thus, the proposal for advanced television for the U.S. is based upon the premise that temporal (frame rate) and spatial (resolution) layering are inefficient, and therefore discrete formats are necessary.
Further, it would be desirable to provide enhancements to resolution, image clarity, coding efficiency, and video production efficiency. The present invention provides such enhancements.
SUMMARY
The invention provides a method and apparatus for image compression which demonstrably achieves better than 1000-line resolution image compression at high frame rates with high quality. It also achieves both temporal and resolution scalability at this resolution at high frame rates within the available bandwidth of a conventional television broadcast channel. The inventive technique efficiently achieves over twice the compression ratio being proposed for advanced television. Further, layered compression allows a form of modularized decomposition of an image that supports flexible application of a variety of image enhancement techniques.
Image material is preferably captured at an initial or primary framing rate of 72 fps. An MPEG-like (e.g., MPEG-2, MPEG-4, etc.) data stream is then generated, comprising:
(1) a base layer, preferably encoded using only MPEG-type P frames, comprising a low resolution (e.g., 1024×512 pixels), low frame rate (24 or 36 Hz) bitstream;
(2) an optional base resolution temporal enhancement layer, encoded using only MPEG-type B frames, comprising a low resolution (e.g., 1024×512 pixels), high frame rate (72 Hz) bitstream;
(3) an optional base temporal high resolution enhancement layer, preferably encoded using only MPEG-type P frames, comprising a high resolution (e.g., 2 k×1 k pixels), low frame rate (24 or 36 Hz) bitstream;
(4) an optional high resolution temporal enhancement layer, encoded using only MPEG-type B frames, comprising a high resolution (e.g., 2 k×1 k pixels), high frame rate (72 Hz) bitstream.
The invention provides a number of key technical attributes, allowing substantial improvement over current proposals, and including: replacement of numerous resolutions and frame rates with a single layered resolution and frame rate; no need for interlace in order to achieve better than 1000-lines of resolution for 2 megapixel images at high frame rates (72 Hz) within a 6 MHz television channel; compatibility with computer displays through use of a primary framing rate of 72 fps; and greater robustness than the current unlayered format proposal for advanced television, since all available bits may be allocated to a lower resolution base layer when “stressful” image material is encountered.
Further, the invention provides a number of enhancements to handle a variety of video quality and compression problems. The following describes a number of such enhancements, most of which are preferably embodied as a set of tools which can be applied to the tasks of enhancing images and compressing such images. The tools can be combined by a content developer in various ways, as desired, to optimize the visual quality and compression efficiency of a compressed data stream, particularly a layered compressed data stream.
Such tools include improved image filtering techniques, motion vector representation and determination, de-interlacing and noise reduction enhancements, motion analysis, imaging device characterization and correction, an enhanced 3-2 pulldown system, frame rate methods for production, a modular bit rate technique, a multi-layer DCT structure, variable length coding optimization, an augmentation system for MPEG-2 and MPEG-4, and guide vectors for the spatial enhancement layer.
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Dolby Laboratories Licensing Corporation
Fish & Richardson P.C.
Philippe Gims
LandOfFree
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