RU2015117258A - METHOD, DEVICE AND SYSTEM FOR CODING AND DECODING OF UNITS OF TRANSFORMATION OF CODING UNIT - Google Patents

Abstract

1. The method of inverse conversion of multiple arrays of residual coefficients from a video bitstream configured for a 4: 2: 2 color format, the method comprising the steps of: decode a plurality of arrays of residual brightness coefficients, wherein each array of residual brightness coefficients corresponds to one block 4 × 4 brightness from a plurality of 4 × 4 brightness blocks, with each 4 × 4 brightness block co-located with one 4 × 4 conversion unit from a plurality of 4 × 4 conversion units, with many bright blocks 4 × 4 together occupy an 8 × 8 luminance region; decode, after the arrays of residual luminance coefficients are decoded, a plurality of arrays of residual chroma for the first color channel, with each array of residual chroma coefficients corresponding to a 4 × 4 chroma block and each chroma block 4 × 4 for the first color channel is co-located with two of the many 4 × 4 conversion units; decode, after the arrays of residual color coefficients for the first color channel are decoded, the set of mas Willow residual chrominance coefficient for the second color channel, wherein each array of coefficients corresponding to the residual chrominance block 4 × 4 chroma and chroma block for each channel of the second color co-located with two of the plurality of conversion units of 4 × 4; and apply the inverse transform to each of the decoded plurality of arrays of residual luminance coefficients, the decoded plurality of arrays of residual luminance coefficients for the first color channel, and the decoded plurality of arrays of residual luminance coefficients

Claims (22)

1. The method of inverse conversion of multiple arrays of residual coefficients from the video bitstream configured for a 4: 2: 2 color format, the method comprising the steps of: decode a plurality of arrays of residual luminance coefficients, with each array of residual luminance coefficients corresponding to one 4 × 4 luminance block from a plurality of 4 × 4 luminance blocks, wherein each 4 × 4 luminance block is co-located with one 4 × 4 transform unit from a plurality of 4 transform units × 4, with many blocks of brightness 4 × 4 together occupying a brightness region of 8 × 8; decode, after the arrays of residual luminance coefficients are decoded, a plurality of arrays of residual luminance coefficients for the first color channel, wherein each array of residual luma coefficients corresponds to a 4 × 4 color block and each 4 × 4 chroma block for the first color channel is co-located with two of sets of 4 × 4 transformation units; decode, after the arrays of residual chroma coefficients for the first color channel are decoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel is co-located with two from a plurality of 4x4 transformation units; and apply an inverse transform to each of the decoded plurality of arrays of residual luminance coefficients, the decoded plurality of arrays of residual luminance coefficients for the first color channel, and the decoded plurality of arrays of residual luminance coefficients for the second color channel. 2. The method according to claim 1, wherein the number of arrays of residual brightness coefficients in a plurality of arrays of residual brightness coefficients is four. 3. The method according to p. 1, in which the number of arrays of residual color coefficients in the set of arrays of residual color coefficients for the first color channel is two. 4. The method according to claim 1, in which one array of residual coefficients includes all the coefficients necessary for the inverse transformation of one 4 × 4 block. 5. A method for directly converting multiple arrays of residual coefficients into a video bitstream configured for a 4: 2: 2 color format, the method comprising the steps of: applying a direct conversion to each of the plurality of arrays of residual luma coefficients, the plurality of arrays of residual chroma for the first color channel, and the plurality of arrays of residual chroma for the second color channel; encode a plurality of arrays of residual luminance coefficients, wherein each array of residual luminance coefficients corresponds to one 4 × 4 luminance block from a plurality of 4 × 4 luminance blocks, wherein each 4 × 4 luminance block is co-located with one 4 × 4 transform unit from a plurality of 4 transform units × 4, with many blocks of brightness 4 × 4 together occupying a brightness region of 8 × 8; encode, after the arrays of residual luminance coefficients have been encoded, a plurality of arrays of residual chromaticity coefficients for the first color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each 4x4 color block for the first color channel is co-located with two of sets of 4 × 4 transformation units; and encode, after the arrays of residual chroma coefficients for the first color channel are encoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel is co-located with two from the set of 4 × 4 transformation units. 6. A method for decoding luma transforms and a plurality of color transforms from a video bitstream, the plurality of color transforms containing color data for one color channel, the method comprising the steps of: breaking at least one rectangular one of the transformations into a plurality of square transformations; and decode square transforms. 7. The method of claim 6, wherein the step of breaking up comprises a step of breaking all of the rectangular transforms into square transforms so that the step of decoding is performed only on the square transforms. 8. The method according to p. 1, in which the number of arrays of residual color coefficients in the set of arrays of residual color coefficients for the second color channel is two. 9. A method for the inverse transformation of multiple arrays of residual coefficients from a video bitstream configured for a 4: 2: 2 color format, the method comprising the steps of: many arrays of residual coefficients are decoded, with each array of residual coefficients corresponding to one 4 × 4 block and the many arrays of residual coefficients includes four blocks of 4 × 4 brightness and four 4 × 4 color blocks and many arrays of residual coefficients are decoded in the order of four blocks first brightness in the scan order, followed by two color blocks U in the scan order, and then two color blocks V in the scan order, and the scan order of the underlying trend in the first place from left to right and from top to bottom in the second; apply the inverse transform to each of the decoded set of arrays of residual coefficients. 10. A decoder for the inverse conversion of multiple arrays of residual coefficients from a video bitstream configured for a 4: 2: 2 color format, wherein the decoder comprises: a first decoder for decoding a plurality of arrays of residual luminance coefficients, wherein each array of residual luminance coefficients corresponds to one 4 × 4 luminance block from a plurality of 4 × 4 luminance blocks, wherein each 4 × 4 luminance block is co-located with one 4 × 4 transformation unit from a plurality conversion units 4 × 4, and many blocks of brightness 4 × 4 together occupy a brightness area of 8 × 8; a second decoder for decoding, after arrays of residual luminance coefficients, a plurality of arrays of residual chroma coefficients for the first color channel are decoded, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each 4x4 color block for the first color channel is co-located with two of the many 4 × 4 conversion units; a third decoder for decoding, after arrays of residual chroma coefficients for the first color channel are decoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel together located with two of the many 4 × 4 conversion units; and a transform node for applying the inverse transform to each of the decoded plurality of arrays of residual luminance coefficients, the decoded plurality of arrays of residual luminance coefficients for the first color channel, and the decoded plurality of arrays of residual luminance coefficients for the second color channel. 11. The decoder according to claim 10, in which the number of arrays of residual brightness coefficients in the set of arrays of residual brightness coefficients is four. 12. The decoder according to claim 10, in which the number of arrays of residual chroma coefficients in the plurality of arrays of residual chroma for the first color channel is two. 13. The decoder according to claim 10, in which one array of residual coefficients includes all the coefficients necessary for the inverse transform of one 4 × 4 block. 14. The decoder according to claim 10, wherein the number of arrays of residual chroma coefficients in the plurality of arrays of residual chroma for the second color channel is two. 15. An encoder for directly converting multiple arrays of residual coefficients into a video bitstream configured for a 4: 2: 2 color format, wherein the encoder comprises: a conversion node for applying direct conversion to each of the plurality of arrays of residual luminance coefficients, the plurality of arrays of residual chroma for the first color channel, and the plurality of arrays of residual chroma for the second color channel; a first encoder for encoding a plurality of arrays of residual luminance coefficients, wherein each array of residual luminance coefficients corresponds to one 4 × 4 luma block from a plurality of 4 × 4 luma blocks, wherein each 4 × 4 luma block is co-located with one 4 × 4 transformation unit from a plurality conversion units 4 × 4, and many blocks of brightness 4 × 4 together occupy a brightness area of 8 × 8; a second encoder for encoding, after the arrays of residual luminance coefficients are encoded, a plurality of arrays of residual chromaticity coefficients for the first color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each 4x4 color block for the first color channel is co-located with two of the many 4 × 4 conversion units; and a third encoder for encoding, after arrays of residual chroma coefficients for the first color channel are encoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel together located with two of the many 4 × 4 conversion units. 16. A decoder for decoding luminance conversions and a plurality of color transforms from a video bitstream, the plurality of color transforms containing color data for one color channel, wherein the decoder comprises: a partitioning node for splitting at least one rectangular one of the transformations into a plurality of square transformations, and decoder for decoding square transforms. 17. The decoder according to claim 16, wherein the partitioning unit breaks all the rectangular transforms into square transforms, so that decoding is performed only on the square transforms. 18. A decoder for the inverse transformation of multiple arrays of residual coefficients from a video bitstream configured for a 4: 2: 2 color format, wherein the decoder comprises: a decoder unit for decoding a plurality of residual coefficient arrays, wherein each residual coefficient array corresponds to one 4x4 block and the multiple residual coefficient arrays includes four 4x4 brightness blocks and four 4x4 color blocks and a plurality of residual coefficient arrays are decoded in sequence first four luma blocks in the scan order, followed by two color blocks U in the scan order, and then two color blocks V in the scan order, m scanning sequence corresponds to the direction primarily from left to right and second from top to bottom; a transform node for applying the inverse transform to each of the decoded plurality of residual coefficient arrays. 19. A non-transitory computer-readable storage medium with a program recorded on it, the program being executed by the processor to invert the plurality of arrays of residual coefficients from the video bitstream configured for a 4: 2: 2 color format, the program comprising: a code for decoding a plurality of arrays of residual luminance coefficients, wherein each array of residual luminance coefficients corresponds to one 4 × 4 luma block from a plurality of 4 × 4 luma blocks, wherein each 4 × 4 luminance block is co-located with one 4 × 4 transformation unit from a plurality of units 4 × 4 transformations, wherein a plurality of 4 × 4 brightness blocks together occupy an 8 × 8 brightness region; a code for decoding, after arrays of residual luminance coefficients, a plurality of arrays of residual chroma coefficients for the first color channel are decoded, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each 4x4 color block for the first color channel is co-located with two of the many 4x4 transformation units; a code for decoding, after the arrays of residual chroma coefficients for the first color channel are decoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel is co-located with two of the many 4 × 4 conversion units; and a code for applying the inverse transform to each of the decoded plurality of arrays of residual luminance coefficients, the decoded plurality of arrays of residual luminance coefficients for the first color channel, and the decoded plurality of arrays of residual luminance coefficients for the second color channel. 20. A non-transitory computer-readable storage medium with a program recorded on it, the program being executed by a processor for directly converting a plurality of arrays of residual coefficients into a video bit stream configured for a 4: 2: 2 color format, the program comprising: a code for applying a direct transform to each of the plurality of arrays of residual luminance coefficients, the plurality of arrays of residual chroma for the first color channel, and the plurality of arrays of residual chroma for the second color channel; a code for encoding a plurality of arrays of residual luminance coefficients, wherein each array of residual luminance coefficients corresponds to one 4 × 4 luminance block from a plurality of 4 × 4 luminance blocks, wherein each 4 × 4 luminance block is co-located with one 4 × 4 transformation unit from a plurality of units 4 × 4 transformations, wherein a plurality of 4 × 4 brightness blocks together occupy an 8 × 8 brightness region; a code for encoding, after arrays of residual luminance coefficients, a plurality of arrays of residual chroma coefficients for the first color channel, each array of residual chroma coefficients corresponds to a 4x4 color block and each 4x4 color block for the first color channel is co-located with two of the many 4x4 transformation units; and a code for encoding, after arrays of residual chroma coefficients for the first color channel are encoded, a plurality of arrays of residual chroma coefficients for the second color channel, wherein each array of residual chroma coefficients corresponds to a 4x4 color block and each chroma block for the second color channel is co-located with two of the many 4 × 4 conversion units. 21. A non-transitory computer-readable storage medium with a program recorded on it, wherein the program is executed by a processor to decode the luminance conversion and a plurality of color transforms from a video bit stream, and the plurality of color transformations contains color data for one color channel, wherein the program contains: code for splitting at least one rectangular one of the transformations into a plurality of square transformations and code for decoding square transforms. 22. A non-transitory computer-readable storage medium with a program recorded on it, while the program is executed by the processor to invert the plurality of arrays of residual coefficients from the video bitstream configured for a 4: 2: 2 color format, while the program contains: a code for decoding a plurality of arrays of residual coefficients, wherein each array of residual coefficients corresponds to one 4 × 4 block and the plurality of arrays of residual coefficients includes four 4x4 brightness blocks and four 4x4 color blocks and a plurality of residual coefficient arrays are first decoded four brightness blocks in the scan order, followed by two color blocks U in the scan order, and then two color blocks V in the scan order, The scanning axis corresponds first of all from left to right and second from top to bottom; code for applying the inverse transform to each of the decoded plurality of residual coefficient arrays.