RU2022102907A - CLASSIFICATION IN ADAPTIVE LOOP FILTRATION - Google Patents

Claims (45)

1. A method for processing video data, comprising the steps of: determining, for transforming between an image in a video containing one or more coding tree blocks, and a video bitstream, gradients of a subset of samples in an 8x8 region to obtain a 4x4 block classification of the first coding tree block in the first filtering process, block 4 x4 is located inside the first block of the coding tree, and the 4x4 block is located inside the 8x8 area; And perform the transformation based on the specified definition, wherein the first filtering process comprises the steps of: determining a set of filter coefficients for the 4×4 block sample based on said gradients; determining a set of compression values for the specified sample; And apply a filter to the specified sample based on a set of filter coefficients and a set of compression values, in the case where it is not allowed to use samples crossing the video block boundary in the first filtering process, the leftmost two columns of samples in the 8×8 area are filled when there is a sample in the 4×4 block located on the left border of the video block. 2. The method of claim 1, wherein the video block boundary comprises a section boundary, a tile boundary, a sub-image boundary, a 360-degree virtual boundary, or an adaptive contour filtering virtual boundary. 3. The method according to claim. 1 or 2, in which in the case where it is not allowed to use samples that cross the border of the video block in the first filtering process, the uppermost two lines of samples in the 8x8 area are filled if in the 4x4 block located on upper border of the video block, there is a countdown. 4. The method according to any one of paragraphs. 1-3, in which in the case where it is not allowed to use samples crossing the video block boundary in the first filtering process, the rightmost two rows of samples in the 8×8 region are filled if there is a sample in the 4×4 block located on the right border of the video block . 5. The method according to any one of paragraphs. 1-4, in which, in the case where it is not allowed to use samples crossing the video block boundary in the first filtering process, the bottom two rows of filled samples in the 8x8 area are filled if there is a Countdown. 6. The method of claim 2, wherein the adaptive loop filtering virtual boundary is enabled for the first coding tree block in the case where the lower boundary of the first coding tree block is not at the lower picture boundary. 7. The method of claim 2 or 6, wherein the adaptive loop filtering virtual boundary is activated for the first coding tree block when the first coding tree block is at the bottom edge of the image and the vertical distance between the upper left count of the first coding tree block and the bottom border of the image is not less than some value. 8. The method according to any one of claims 2, 6, and 7, wherein the one-way fill operation is applied to samples crossing the 360-degree virtual boundary, regardless of the position of the 360-degree virtual boundary within the image, while in the one-way fill operation, if one the reference to be used is outside the 360-degree virtual boundary, it is copied from the available reference inside the 360-degree virtual boundary. 9. The method according to any one of paragraphs. 1-8, in which separate syntax elements are reported at different levels indicating whether it is allowed to use samples crossing various types of borders, while various types of borders contain a section border, a tile border, and a sub-image border. 10. The method according to any one of paragraphs. 1-9, wherein a first syntax element for a tile border of syntax elements is included in a picture parameter set to indicate whether samples crossing tile borders are allowed to be used; a second syntax element for a section boundary of syntax elements is included in a picture parameter set to indicate whether samples crossing section boundaries are allowed to be used; a third syntax element for a sub-image boundary of syntax elements is included in the sequence parameter set to indicate whether samples crossing sub-image boundaries are allowed. 11. The method of claim 9, wherein the individual syntax elements are further applied in at least one of a deblocking filtering process, a sample adaptive offset (SAO) process, a two-way filtering process, or a Hadamard filtering process. 12. The method according to any one of paragraphs. 1-11, in which the 8x8 area is located inside the 10x10 area in the case where it is not allowed to use samples crossing the video block boundary in the first filtering process, the leftmost three columns of samples in the 10x10 area, containing two columns of samples in the area 8×8 are filled when there is a sample in the 4×4 block located on the left border of the video block. 13. The method according to any one of paragraphs. 1-12, in which the video is encoded into a bitstream in the conversion step. 14. The method according to any one of paragraphs. 1-12, wherein the conversion step decodes the video from the bitstream. 15. A video data processing device containing a processor and a long-term memory with instructions stored in it, while the instructions, when executed by the processor, cause the processor to execute: definitions for transforming between an image in a video containing one or more coding tree blocks and a video bitstream, gradients of a subset of samples within an 8×8 area to obtain a 4×4 block classification of the first coding tree block in the first filtering process, wherein the 4× block 4 is located inside the first block of the coding tree, and the 4x4 block is located inside the 8x8 region; And performing a transformation based on the specified definition, while the first filtering process contains: determining a set of filter coefficients for the 4×4 block sample based on said gradients; determining a set of compression values of the specified sample; And applying a filter to the specified sample based on a set of filter coefficients and a set of compression values, in this case, if it is not allowed to use samples that cross the video block boundary in the first filtering process, the leftmost two columns of samples in the 8×8 area are filled when there is a sample in the 4×4 block located on the left border of the video block. 16. A computer-readable, durable medium that stores instructions that cause the processor to execute: definitions for transforming between an image in a video containing one or more coding tree blocks and a video bitstream, gradients of a subset of samples within an 8×8 area to obtain a 4×4 block classification of the first coding tree block in the first filtering process, wherein the 4× block 4 is located inside the first block of the coding tree, and the 4x4 block is located inside the 8x8 region; And performing a transformation based on the specified definition, while the first filtering process contains: determining a set of filter coefficients for the 4x4 block sample based on said gradients; determining a set of compression values of the specified sample; And applying a filter to the specified sample based on a set of filter coefficients and a set of compression values, in this case, if it is not allowed to use samples that cross the video block boundary in the first filtering process, the leftmost two columns of samples in the 8×8 area are filled when there is a sample in the 4×4 block located on the left border of the video block. 17. A computer-readable durable medium storing a video bitstream that is generated by a method performed by a video processing device, the method comprising: determine subset gradients in an 8×8 region to obtain a classification of a 4×4 block of the first coding tree block in the video image in the first filtering process, wherein the 4×4 block is located within the first coding tree block and the 4×4 block is located within the region 8×8; And generate a bitstream based on the specified definition, wherein the first filtering process comprises the steps of: determining a set of filter coefficients for the 4×4 block sample based on said gradients; determining a set of compression values for the specified sample; And apply a filter to the specified sample based on a set of filter coefficients and a set of compression values, in this case, if it is not allowed to use samples that cross the video block boundary in the first filtering process, the leftmost two columns of samples in the 8×8 area are filled when there is a sample in the 4×4 block located on the left border of the video block.