Frequency-based video data substitution for increased video...

Image analysis – Color image processing

Reexamination Certificate

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Details

C382S166000, C382S260000

Reexamination Certificate

active

06760474

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to spectral-based data compression and compensation, and more particularly to the field of frequency-based data substitution and compensation for enhanced video compression ratios.
2. Background of the Invention
Digital storage and/or transmission of video data has applications in entertainment, video conferencing, education, medicine, and virtually any application where moving pictures are desired. High quality video data requires large bandwidths whether the video data is to be stored, or transmitted over finite bandwidth transmission media such as modems and various other Internet connections. Various algorithms and systems exist for encoding and compressing video data, including the audio data that is normally included within the video data. One such standard is the Motion Pictures Expert Group (MPEG) standard, ISO/IEC 11172, entitled “Coding of Moving Pictures and Associated Audio For Digital Storage Media At Up To About 1.5 Mbit/s”, which is referred to as MPEG-1 and is incorporated herein by reference. However, 1.5 Mbit/s is too high a digital data rate to enable real time video playback over Internet connections, even including digital subscriber line (DSL) connections. Accordingly, a need exists for improved techniques for compressing, encoding, and playing back sensory stimulus data streams such as video data streams, audio data streams, and combined video/audio data streams.
SUMMARY OF THE INVENTION
In the invention, frequency information is selectively removed from a video signal. The removal of the frequency information includes reducing the magnitude of certain frequencies to zero. This magnitude reduction process can be thought of as color “raking.” The color raking is performed periodically in the frequency spectrum. After the video signal has been raked, the signal is digitized and then oversaturated, which is the shifting of certain color values to nearby color values. The oversaturation process can be thought of as color rounding. Color rounding decreases the cardinal number of color values within the video signal. Both the color raking and the color rounding is performed in portions of the visible spectrum in which the human eye will not noticeably perceive that video information has been lost, i.e., the image quality will not be visibly degraded. Because raking and rounding both reduce the number of color values that a video data compressor must field as part of its color palette, the computational load on the video compressor is reduced. Additionally, the bit rate required to support video image transmission and/or reproduction is also reduced. That is, the compression ratios are increased. The invention therefore takes advantage of strengths and weaknesses in the ability of the rods and cones within the human eye to perceive colors of varying magnitudes and wavelengths.
The present invention also includes matching of a reduced spectrum lighting source with a reduced color palette within the data compressor. The use of the reduced spectrum lighting source allows the size of the color palette to be reduced without visible degradation in image quality, thus further enhancing the compression ratios.
A still further aspect of the present invention involves a method of spectral emphasis, or reverse spectral compensation, of a video signal such that when the video signal is reproduced on a playback device such as a computer monitor, the color contrast as seen by an observer of the original scene is preserved. This makes the scene as played back appear more natural looking and easier on the eye. This aspect of the invention can be explained as follows. Playback devices including television sets generally reproduce video signals with lower intensity levels than the original scene. In general, computer monitors reproduce video signals with intensity levels that are lower still. As the illumination or reproduction intensity level of a scene decreases, the eye's ability to discern color contrasts within that scene decreases. If the scene is to be reproduced on a device such as a computer monitor, without any compensation the scene would appear darker than the original scene. The effect on the human eye is similar to watching a scene at dusk rather than in full daylight. Rather than merely appearing as a lower intensity version of the same scene with all of the same color information, nuances between colors get lost. This decreasing ability to distinguish between colors as light intensity decreases will be termed “color depletion”. Because the rods and cones within the human eye respond greatest at the middle of the visible light spectrum and respond less at the higher and lower ends of the spectrum, color depletion is most pronounced at the lower and higher ends of the spectrum, and is less pronounced in the middle, or generally green, part of the spectrum. Color nuances can be significantly restored by performing a spectral emphasis that is the reverse response of the human eye's photopic response. By increasing the intensity levels of the colors on the lower and the higher ends of the spectrum where the color depletion effect is most pronounced, color nuances are greatly restored from the standpoint of the human observer. In this aspect therefore the present invention includes filtering the video signal with a filter whose frequency response is generally the reverse of the human eye's spectral response to the output of a video playback device such as a computer monitor. The result is that to the human observer, the scene on the computer monitor appears to be merely a lower intensity version of the original scene with much of the color nuances remaining, rather than a dim-light, color depleted version of the original scene whose color nuances have been lost.
The above-described features and other features and benefits of the present invention will become clear to those skilled in the art when read in conjunction with the following detailed description of a preferred illustrative embodiment and viewed in conjunction with the attached drawings and appended claims.


REFERENCES:
patent: 4803523 (1989-02-01), Pearson
patent: 5294974 (1994-03-01), Naimpally et al.
patent: 5990996 (1999-11-01), Sharp
patent: 6470048 (2002-10-01), Fenne

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