RU2022121160A - METHOD AND DEVICE FOR INTRA-PREDICTION IN WHICH PREDICTION BLOCK IS DIVIDED INTO SUB-UNITS AND PREDICTION IN SUB-UNITS - Google Patents

Claims (56)

1. A video decoding device for restoring the current block using intra-prediction, comprising: memory; a processor coupled to memory and configured to: decoding, from the bit stream, a split flag indicating whether the current block should be divided into a plurality of sub-blocks, wherein the decoding of the split flag depends on the width and height of the current block, the region of the current block, and the minimum transform size and maximum transform size that are allowed for the transform conversion factors; determining, based on the division flag, whether to divide the current block into a plurality of subblocks; determining when the current block is divided into a plurality of sub-blocks, a division direction for the current block between the horizontal division direction and the vertical division direction based on the division information decoded from the bitstream, and determining the number of sub-blocks based on the width and height of the current block; restoring the current block by sequentially restoring sub-blocks given in accordance with the division direction and the number of sub-blocks using intra prediction; and setting a grid of N samples at equal intervals in the horizontal and vertical directions and performing deblocking filtering among the boundaries between the reconstructed sub-blocks in the current block, with the boundaries coinciding with the grid boundary, wherein when the area of the current block is smaller than the area of the transform unit specified by the minimum transform size, the split flag is not decoded from the bit stream and set to a value indicating that the current block is not to be split, wherein when at least one of the width and height of the current block is greater than the maximum transform size, the split flag is not decoded from the bit stream and is set to a value indicating that the current block is not to be split, wherein the processor is further configured to decode the intra-prediction mode information of the current block from the bit stream to determine the intra-prediction mode of the current block, wherein the intra-prediction of each of the sub-blocks is performed based on the intra-prediction mode of the current block. 2. The device according to claim 1, in which the restoration of the current block includes the steps: predicting a target sub-block currently to be restored from among sub-blocks of previously restored pixels around the target sub-block to generate an intra-predicted sub-block; create a residual sub-block having residual signals by decoding, from the bitstream, transform coefficient information corresponding to the target sub-block to recover the transform coefficients, and performing inverse quantization and inverse transform of the transform coefficients using a transform size equivalent to the target sub-block; and restoring the target sub-block using the intra-predicted sub-block and the residual sub-block, wherein the pixels in the reconstructed target sub-block are used to intra-predict the subsequent sub-block in the current block. 3. The apparatus of claim 2, wherein decoding the transform coefficient information corresponding to the target sub-block includes the following steps: decoding, from the bitstream, a sub-block flag indicating whether a non-zero transform coefficient exists in the target sub-block, based on the position of the target sub-block in the current block and the number of sub-blocks; and recovering transform coefficients corresponding to the target sub-block from the bit stream when the sub-block flag indicates that a non-zero transform coefficient exists in the target sub-block. 4. The apparatus of claim 3, wherein if the subblock flag is not decoded from the bit stream, the subblock flag is set to a value indicating that a non-zero transform coefficient exists in the subblock. 5. The apparatus of claim 1, wherein determining the intra-prediction mode of the current block includes the following steps: selecting a predetermined number of intra-prediction mode candidates from a plurality of available intra-prediction modes; and determining an intra-prediction mode of the current block from among the intra-prediction mode candidates using the intra-prediction mode information of the current block, wherein the intra prediction mode candidates are selected in different ways depending on whether the splitting direction is a horizontal splitting direction or a vertical splitting direction. 6. The device according to claim 5, in which when the split direction is horizontal, from among the plurality of available intra-prediction modes, vertical orientation modes are selected as intra-prediction mode candidates instead of horizontal orientation modes; and when the split direction is vertical, from among the plurality of available intra prediction modes, horizontal orientation modes are selected as intra prediction mode candidates instead of vertical orientation modes. 7. The device according to claim 6, in which the restoration of the current block includes the following steps: determining a motion vector of the target sub-block and generating an inter-predicted sub-block for the target sub-block using the motion vector; and generating a prediction subblock for the target subblock by calculating a weighted average of the intra-predicted sub-block and the inter-predicted sub-block, wherein the target subblock is recovered by adding the prediction subblock and the residual subblock. 8. A video encoding device for restoring the current block using intra-prediction, comprising: memory; a processor coupled to memory and configured to: determining whether to divide the current block into a plurality of sub-blocks based on the width and height of the current block, the region of the current block, and the minimum transform size and the maximum transform size that are valid for converting the transform coefficients; encoding, into the bit stream, a split flag indicating whether to split the current block into a plurality of sub-blocks; determining when the current block is divided into a plurality of sub-blocks, a division direction for the current block between the horizontal division direction and the vertical division direction, and determining the number of sub-blocks based on the width and height of the current block; encoding, into the bitstream, split information indicating a split direction; encoding the current block by sequentially encoding and recovering sub-blocks using intra-prediction; setting a grid of N samples at equal intervals in the horizontal and vertical directions and performing deblocking filtering among the boundaries between the reconstructed sub-blocks in the current block, with the boundaries coinciding with the grid boundary, wherein when the area of the current block is less than the area of the transform unit specified by the minimum transform size, the processor is further configured not to encode the split flag into the bit stream and determine that the current block should not be split, wherein when at least one of the width and height of the current block is greater than the maximum transform size, the processor is further configured to not encode the split flag into the bitstream and determine that the current block should not be split, wherein the processor is further configured to determine the intra-prediction mode of the current block, wherein the intra-prediction of each of the sub-blocks is performed based on the intra-prediction mode of the current block. 9. A non-transitory computer-readable medium storing a bitstream containing encoded data for a block of video data to be decoded from the bitstream by an intra-prediction coding method, the method comprising the following steps: decoding, from the bit stream, a split flag indicating whether the current block should be divided into a plurality of sub-blocks, wherein the decoding of the split flag depends on the width and height of the current block, the area of the current block, and the minimum transform size and maximum transform size that are allowed for the transform conversion factors; determining, based on the division flag, whether to divide the current block into a plurality of sub-blocks; when the current block is divided into a plurality of sub-blocks, determining a division direction for the current block between a horizontal division direction and a vertical division direction based on the division information decoded from the bitstream, and determining the number of sub-blocks based on the width and height of the current block; restoring the current block by sequentially restoring sub-blocks in the current block using intra-prediction; and set a grid of N samples at equal intervals in the horizontal and vertical directions and perform deblocking filtering among the boundaries between the restored sub-blocks in the current block, and the boundaries coincide with the grid boundary, wherein when the area of the current block is smaller than the area of the transform unit specified by the minimum transform size, the split flag is not decoded from the bit stream and set to a value indicating that the current block is not to be split, wherein when at least one of the width and height of the current block is greater than the maximum transform size, the split flag is not decoded from the bit stream and is set to a value indicating that the current block is not to be split, wherein the processor is further configured to decode the intra-prediction mode information of the current block from the bit stream to determine the intra-prediction mode of the current block, wherein the intra-prediction of each of the sub-blocks is performed based on the intra-prediction mode of the current block.