RU2022101307A - IMAGE ENCODING/DECODING METHOD, EQUIPMENT AND METHOD FOR BIT STREAM TRANSMISSION USING COLOR SIGNAL BLOCK CONVERSION MAXIMUM SIZE - Google Patents

Claims (56)

1. An image decoding method performed by image decoding equipment, wherein the image decoding method comprises the steps of: get the current block by splitting the image; determining a prediction mode of the current block; generating an intra prediction block with respect to the current block, based on the prediction mode of the current block, which is an intra prediction mode; forming a residual block relative to the current block; And restoring the current block based on the prediction block and the residual block relative to the current block, wherein the intra prediction block and the residual block are generated based on the size of the transformation block of the current block, wherein the size of the transform block is determined based on the color component of the current block, and in this case, the maximum size of the transformation block is determined separately for each width and height of the transformation block. 2. The image decoding method according to claim 1, wherein the color component is one of a luminance signal component and a chrominance signal component. 3. The image decoding method according to claim 1, wherein, based on a color component of the current block being a chrominance signal component, the transform block size is determined based on a color format. 4. The image decoding method according to claim 3, in which the width of the transform box is determined based on the maximum width of the transform box, and wherein the maximum width of the transform block is determined based on the maximum size and color format of the transform block of the luma block corresponding to the current block. 5. Method for decoding images according to claim 3, in which the height of the transform box is determined based on the maximum height of the transform box, and wherein the maximum height of the transform block is determined based on the maximum size and color format of the transform block of the luma block corresponding to the current block. 6. The image decoding method according to claim 1, wherein the position of the top left sample of the transform block is determined based on the position and color format of the top left sample of the luma block corresponding to the current block. 7. Method for decoding images according to claim 1, in which the top left position of the transform box is determined based on the maximum width of the transform box and the maximum height of the transform box, wherein the maximum transform block width is determined based on the maximum size and color format of the transform block of the luminance block corresponding to the current block, and wherein the maximum height of the transform block is determined based on the maximum size and color format of the transform block of the luma block corresponding to the current block. 8. Method for decoding images according to claim 1, in which the current block is a block of chrominance signals, wherein, based on the width of the transformation block exceeding the maximum width of the transformation block, a plurality of transformation blocks of the lower layer are formed by vertically splitting the current block, and wherein the intra prediction block and the residual block are generated based on the plurality of lower layer transform blocks. 9. Image decoding equipment according to claim 8, wherein the plurality of lower layer transform blocks include a first lower layer transform block and a second lower layer transform block, wherein the width of the first transform block of the lower layer is defined as half the width of the transform block, and wherein the upper left coordinate of the second transform block of the lower layer is determined as a value shifted from the upper left coordinate of the transform block to the right by half the width of the transform block. 10. Method for decoding images according to claim 1, in which the current block is a block of chrominance signals, wherein, based on the height of the transformation block exceeding the maximum height of the transformation block, a plurality of transformation blocks of the lower layer are formed by splitting the current block horizontally, and wherein the intra prediction block and the residual block are generated based on the plurality of lower layer transform blocks. 11. The image decoding method according to claim 10, wherein the plurality of lower layer transform units include a third lower layer transform unit and a fourth lower layer transform unit, wherein the height of the third transform block of the lower layer is defined as half the height of the transform block, and wherein the upper left coordinate of the fourth transform block of the lower layer is determined as a value shifted downward from the upper left coordinate of the transform block by half the height of the transform block. 12. The image decoding method according to claim 1, wherein the maximum transform block size is 64x64 based on the color format of the current block being 4:4:4, the maximum transform block size is 32x64 based on the color format of the current block, which is a 4:2:2 aspect ratio, and the maximum transform block size is 32×32 based on the color format of the current block, which is a 4:2:0 aspect ratio. 13. An image encoding method carried out by means of image encoding equipment, wherein the image encoding method comprises the steps of: determining the current block by splitting the image; generating an intra prediction block with respect to the current block; generating a residual block with respect to the current block based on the intra prediction block; encoding intra prediction mode information regarding the current block, wherein the inner residual block and the residual block are encoded based on the transform block size of the current block, wherein the size of the transform block is determined based on the color component of the current block, and in this case, the maximum size of the transformation block is determined separately for each width and height of the transformation block. 14. A non-volatile computer-readable medium storing a bit stream generated by the image encoding method of claim 13. 15. A method for transmitting a bitstream generated by an image encoding method, the image encoding method comprising: determining the current block by splitting the image; generating an intra prediction block with respect to the current block; generating a residual block with respect to the current block based on the intra prediction block; And encoding intra prediction mode information regarding the current block, wherein the inner residual block and the residual block are encoded based on the transform block size of the current block, wherein the size of the transform block is determined based on the color component of the current block, and in this case, the maximum size of the transformation block is determined separately for each width and height of the transformation block.