Picture transmission system using secondary differential variable sampling rate coding
First Claim
1. A picture transmission system for sampling and compressing picture data in a television frame so as to code and transmit the same, said system comprising:
- differential value forming means responsive to sampling values obtained by sampling said picture data and to predictors between lines for forming differential values therebetween;
compression-coding means for compression-coding said differential values from said differential value forming means to provide compression-coded differential values;
expansion-decoding means for expansion-decoding said compression-coded differential values from said compression-coding means to obtain expansion-decoded differential values; and
predicting means responsive to said expansion-decoded differential values for performing prediction to obtain aid predictors between lines;
wherein changed portions in said picture data and other picture data immediately before said picture data are extracted, and said predicting means performs prediction for said extracted changed portions;
said system further comprising adding means connected between said expansion-decoding means and said predicting means for adding said predictors between lines from said predicting means and said decoded differential values from said expansion-decoding means to obtain added values, said predicting means processing said added values as predictors for subsequent sampling values;
wherein said picture data are obtained by successively vertically scanning data per horizontal scanning line of a television, said predicting means successively performing prediction for respective sampling points on said horizontal scanning line so as to store differential values between said respective sampling points and respective said predictors, thereby successively performing preposition prediction in the vertical direction on the basis of said stored differential values and sampling values of respective sampling points on a subsequent horizontal scanning line, said compression-coding means performing compression-coding on the basis of said differential values adapted to said preposition prediction in the vertical direction.
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Accused Products
Abstract
A picture transmission system of the present invention is adapted to code picture data by a variable sampling rate coding system to transmit the same. Picture data are stored in a frame memory (16) of a transmission area so that differential values between the same and predictors from a predictive circuit (43) are obtained by a subtracter (41) and compression-coded by a variable sampling rate compression circuit (42) to be transmitted. The compression-coded differential values are expansion-decoded by a variable sampling rate expansion circuit (40) so that original differential values are supplied to an adder (45). The adder (45) adds up the differential values with predictors, to produce predictors for subsequent sampling points. In a receiving area, transmitted codes are expansion-decoded by a variable sampling rate expansion circuit (51), so that the decoded values are added up with predictors from a predictive circuit (53) by an adder (52) to output the original picture data. Preposition prediction and variable sampling rate decoding are thus combined to enable, in the receiving area, automatic correction of compression/expansion errors caused in the transmission area.
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Citations
6 Claims
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1. A picture transmission system for sampling and compressing picture data in a television frame so as to code and transmit the same, said system comprising:
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differential value forming means responsive to sampling values obtained by sampling said picture data and to predictors between lines for forming differential values therebetween; compression-coding means for compression-coding said differential values from said differential value forming means to provide compression-coded differential values; expansion-decoding means for expansion-decoding said compression-coded differential values from said compression-coding means to obtain expansion-decoded differential values; and predicting means responsive to said expansion-decoded differential values for performing prediction to obtain aid predictors between lines; wherein changed portions in said picture data and other picture data immediately before said picture data are extracted, and said predicting means performs prediction for said extracted changed portions; said system further comprising adding means connected between said expansion-decoding means and said predicting means for adding said predictors between lines from said predicting means and said decoded differential values from said expansion-decoding means to obtain added values, said predicting means processing said added values as predictors for subsequent sampling values; wherein said picture data are obtained by successively vertically scanning data per horizontal scanning line of a television, said predicting means successively performing prediction for respective sampling points on said horizontal scanning line so as to store differential values between said respective sampling points and respective said predictors, thereby successively performing preposition prediction in the vertical direction on the basis of said stored differential values and sampling values of respective sampling points on a subsequent horizontal scanning line, said compression-coding means performing compression-coding on the basis of said differential values adapted to said preposition prediction in the vertical direction. - View Dependent Claims (2, 3)
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4. A picture transmission system for sampling and compressing picture data in a television frame so as to code and transmit the same, said system comprising:
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differential value forming means responsive to sampling values obtained by sampling said picture data and to predictors between lines for forming differential values therebetween; compression-coding means for compression-coding said differential values from said differential value forming means to provide compression-coded differential values; expansion-decoding means for expansion-decoding said compression-coded differential values from said compression-coding means to obtain expansion-decoded differential values; and predicting means responsive to said expansion-decoded differential values for performing prediction to obtain said predictors between lines; wherein changed portions in said picture data and other picture data immediately before said picture data are extracted, and said predicting means performs prediction for said extracted changed portions; said system further comprising adding means connected between said expansion-coding means and said predicting means for adding said predictors between lines from said predicting means and said decoded differential values from said expansion-decoding means to obtain added values, said predicting means processing said added values as predictors for subsequent sampling values; wherein said picture data are obtained by successively vertically scanning data per horizontal scanning line of a television, said predicting means performing a primary prediction by performing prediction for a sampling point on said horizontal scanning line, said predicting means performing a secondary prediction by performing vertical prediction for a sampling point on a subsequent horizontal scanning line on the basis of a differential value obtained from said primary prediction, said compression-coding means performing compression-coding on the basis of a differential value obtained from said secondary prediction. - View Dependent Claims (5, 6)
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Specification