RU2023114451A - IMAGE PREDICTION METHOD, EQUIPMENT, SYSTEM, IMAGE PREDICTION DEVICE AND INFORMATION STORAGE MEDIUM - Google Patents

Claims (72)

1. An image prediction method, comprising the steps of: getting a split mode for the current node, the current node being an image block in a coding tree unit in the current image; determining whether the current node satisfies the first condition based on the split mode for the current node and the dimensions of the specified current node; And performing, upon determining that the current node satisfies the first condition, intra-frame prediction of all coding blocks belonging to the current node to obtain predictors of all coding blocks belonging to the current node. 2. The method of claim 1, wherein the first condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode of the current node is quadtree split; the number of luma block samples of the current node is 64, and the split mode of the current node is ternary tree split; the number of luma block samples of the current node is 32, and the split mode of the current node is binary tree split; or a luminance block of a given size is obtained by dividing the current node in a split mode, where the given size is 4x4 or 8x8. 3. The method of claim 1, wherein the first condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode of the current node is binary tree split; the number of luma block samples of the current node is 128, and the split mode of the current node is ternary tree split; or a chrominance block of a given size is obtained by dividing the current node in a splitting mode, where the given size is 2x4 or 4x2. 4. The method of claim 1, wherein the first condition comprises at least one of the product of the width and height of the current node's luminance block is 64, and the split mode of the current node is quadtree split; the product of the width and height of the luminance block of the current node is 64, and the division mode of the current node is horizontal ternary tree division or vertical ternary tree division; or the product of the width and height of the current node's luminance block is 32, and the splitting mode of the current node is horizontal binary tree split or vertical binary tree split. 5. The method according to any one of paragraphs. 1-4, further comprising, upon determining that the current node does not meet the first condition, the steps of: determining, based on the split mode of the current node, whether the current node meets the second condition; And performing, upon determining that the current node meets the second condition, predicting all coding blocks belonging to the current node based on the prediction mode to obtain predictors of all coding blocks belonging to the current node, the prediction mode being an intra-prediction or inter-prediction mode. 6. The method of claim 5, wherein the second condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode is binary tree split; the number of luma block samples of the current node is 128, and the split mode is ternary tree split; the number of luma block samples of the current node is 64, and the split mode is binary tree split and the chroma format is 4:2:0; the number of luma block samples of the current node is 128, and the split mode is ternary tree split and the chrominance format is 4:2:0; or the width of the chrominance block of the child block of the current node is 2. 7. The method of claim 5, wherein the step of determining whether the current node meets the second condition comprises a sub-step of: determining whether the current node meets the second condition based on the split mode of the current node, the size of the current node, and the current quoit format. 8. The method of claim 5, wherein the step of performing prediction for all coding blocks belonging to the current node comprises sub-steps of: parsing a prediction mode status flag of the current node; And performing, when the value of the prediction mode status flag is the first value, inter-frame prediction of all coding blocks belonging to the current node; or, when the value of the prediction mode status flag is the second value, intra-frame prediction of all coding blocks belonging to the current node. 9. The method of claim 8, wherein the step of performing inter-frame prediction of all coding blocks belonging to the current node comprises: splitting the current node in splitting the current node, to obtain a child node of the current node; determining, based on the size of the child node of the current node, a split mode that is not available to the child node of the current node; determining a block splitting policy for the child node of the current node based on the splitting mode of the current node inaccessible to the child node; And obtaining, in accordance with the block splitting policy of the child node of the current node, a coding block corresponding to the child node of the current node, and performing inter-frame prediction of the corresponding coding block. 10. The method according to any one of paragraphs. 1-9, in which the step of performing intra-frame prediction for all coding blocks belonging to the current node comprises a sub-step of: separating, in the split mode, a luma block contained in the current node to obtain split luma blocks, and performing intra-frame prediction of the split luma blocks; using the chrominance block contained in the current node as the coding chroma block, and performing intra prediction of the coding chroma block. 11. The method according to any one of paragraphs. 1-10, in which the size of the current node is determined based on the size of the coding tree node corresponding to the current node and the partitioning mode used to obtain the current node. 12. A video encoding device, comprising: CPU; And a storage device connected to the processor for storing executable instructions that cause, when executed by the processor, execution, by the processor, of operations on which: getting a split mode for the current node, the current node being an image block in a coding tree unit in the current image; determining whether the current node satisfies the first condition based on the split mode for the current node and the dimensions of the specified current node; And performing, upon determining that the current node satisfies the first condition, intra-frame prediction of all coding blocks belonging to the current node to obtain predictors of all coding blocks belonging to the current node. 13. The video encoding device of claim 12, wherein the first condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode of the current node is quadtree split; the number of luma block samples of the current node is 64, and the split mode of the current node is ternary tree split; the number of luma block samples of the current node is 32, and the split mode of the current node is binary tree split; or a luminance block of a given size is obtained by dividing the current node in a split mode, where the given size is 4x4 or 8x8. 14. The video encoding device of claim 12, wherein the first condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode of the current node is binary tree split; the number of luma block samples of the current node is 128, and the split mode of the current node is ternary tree split; or a chrominance block of a given size is obtained by dividing the current node in a splitting mode, where the given size is 2x4 or 4x2. 15. The video encoding device of claim 12, wherein the first condition comprises at least one of the product of the width and height of the current node's luminance block is 64, and the split mode of the current node is quadtree split; the product of the width and height of the luminance block of the current node is 64, and the division mode of the current node is horizontal ternary tree division or vertical ternary tree division; or the product of the width and height of the current node's luminance block is 32, and the splitting mode of the current node is horizontal binary tree split or vertical binary tree split. 16. The video encoding device according to any one of paragraphs. 12-15, wherein, upon determining that the current node does not meet the first condition, the operations further comprise determining, based on the split mode of the current node, whether the current node meets the second condition; And performing, upon determining that the current node meets the second condition, predicting all coding blocks belonging to the current node based on the prediction mode to obtain predictors of all coding blocks belonging to the current node, the prediction mode being an intra-prediction or inter-prediction mode. 17. The video encoding device of claim 16, wherein the second condition comprises at least one of the number of luma block samples of the current node is 64, and the split mode is binary tree split; the number of luma block samples of the current node is 128, and the split mode is ternary tree split; the number of luma block samples of the current node is 64, and the split mode is binary tree split and the chroma format is 4:2:0; the number of luma block samples of the current node is 128, and the split mode is ternary tree split and the chrominance format is 4:2:0; or the width of the chrominance block of the child block of the current node is 2. 18. The video encoding device of claim 16, wherein determining whether the current node meets the second condition comprises: determining whether the current node meets the second condition based on the split mode of the current node, the size of the current node, and the current quotation format. 19. The video encoding device according to any one of paragraphs. 12-18, in which performing intra-frame prediction for all coding blocks belonging to the current node comprises: dividing, in a split mode, a luma block contained in the current node to obtain dividing luminance blocks, and performing intra-frame prediction of the dividing luminance blocks; using the chrominance block contained in the current node as the coding chroma block; and performing intra prediction of the coding chroma block. 20. A non-volatile computer-readable storage medium storing an encoded bitstream, the encoded bitstream being generated by dividing the current image into a plurality of nodes and containing the prediction mode status flag of the current node, wherein when the value of the prediction mode status flag is the first value, inter-frame prediction of all coding blocks is performed. belonging to the current node; or, when the value of the prediction mode status flag is the second value, intra-frame prediction of all coding blocks belonging to the current node is performed.