RU2023120688A - METHOD AND DEVICE FOR ENCODING/DECODING IMAGE SIGNALS - Google Patents

Claims (50)

1. Video decoding method, including the following steps: generating a list of merge candidates for the first block; selection of one of the merger candidates included in the list of merger candidates; And performing motion compensation for the first block based on the motion information of the selected merge candidate, wherein an inter-site merger candidate included in the inter-site traffic information list is added to the merger candidate list based on the number of spatial merger candidates and temporal merger candidates included in the merger candidate list, wherein based on the result of determining whether one inter-site merger candidate included in the inter-site traffic information list is the same as at least one merger candidate included in the merger candidate list, it is determined whether or not to add one candidate for a merger between sites on the merger candidate list, and the determination is performed by comparing at least one merger candidate whose index value is less than or equal to the threshold value with one merger candidate between regions, and while performing motion compensation for the first block includes: performing motion-compensated prediction for the first block using the plurality of merge candidates. 2. The method of claim 1, wherein the inter-site motion information list contains an inter-site merging candidate based on the block motion information decoded before the first block. 3. The method of claim 1, wherein when the first block is included in the merge processing area, the temporary merge candidate obtained based on the motion information of the first block is added to the temporary motion information list, and when decoding all blocks, included in the merge processing area is completed, the temporary merge candidate is updated in the inter-site traffic information list. 4. The method according to claim 1, wherein when determining that there is the same merger candidate as one inter-site merger candidate, one inter-site merger candidate is not added to the list of merger candidates, and based on the result determining whether another inter-site merger candidate included in the inter-site traffic information list is the same as at least one merger candidate included in the merger candidate list, determining whether or not to add another inter-site merger candidate sites in the list of merger candidates, and determining whether the other merger candidate between sites is the same as the merger candidate that is the same as one merger candidate between sites is not performed. 5. The method of claim 1, wherein when an inter-site merger candidate that is the same as the first block motion information exists in the merger candidate list, an index assigned to the inter-site merger candidate in the movement between sites, update to the largest value. 6. The method of claim 1, wherein the determination is performed by comparing at least one merger candidate whose index value is greater than a threshold value with one merger candidate between sites. 7. The method of claim 1, wherein the determination is performed by comparing a merge candidate derived from a block at a particular location with one inter-location merge candidate, wherein the particular location includes at least one of the top right adjacent block or the bottom left adjacent block of the first block. 8. The method according to claim 1, characterized in that the plurality of merge candidates includes a first merge candidate and a second merge candidate, and wherein the first merge candidate and the second merge candidate are included in the merge candidate list for the first block; a first prediction block is generated using the first merge candidate, a second prediction block is generated using the second merge candidate, and a third prediction block is generated based on the first prediction block and the second prediction block. 9. The method of claim 8, wherein the third prediction block is generated based on a weighted sum operation of the first prediction block and the second prediction block. 10. The method according to claim 8, characterized in that the merge_idx index information of the first merge candidate and the merge_2nd_idx index information of the second merge candidate are obtained by parsing the bitstream. 11. The method according to claim 10, characterized in that when the index information value of merge_2nd_idx is equal to or greater than the index information value of merge_idx, the index value of the second merge candidate is obtained by adding 1 to the index information value of merge_2nd_idx. 12. Video encoding method, including the following steps: generating a list of merge candidates for the first block; selection of one of the merger candidates included in the list of merger candidates; And performing motion compensation for the first block based on the motion information of the selected merge candidate, wherein an inter-site merger candidate included in the inter-site traffic information list is added to the merger candidate list based on the number of spatial merger candidates and temporal merger candidates included in the merger candidate list, wherein based on the result of determining whether one inter-site merger candidate included in the inter-site traffic information list is the same as at least one merger candidate included in the merger candidate list, it is determined whether or not to add one candidate for a merger between sites on the merger candidate list, and the determination is performed by comparing at least one merger candidate whose index value is less than or equal to the threshold value with one merger candidate between regions, and while performing motion compensation for the first block includes: performing motion-compensated prediction for the first block using the plurality of merge candidates. 13. The method of claim 12, wherein the inter-site motion information list contains an inter-site merging candidate based on the block motion information encoded before the first block. 14. The method of claim 12, wherein when the first block is included in the merge processing area, the temporary merge candidate obtained based on the motion information of the first block is added to the temporary motion information list, and when the coding of all blocks, included in the merge processing area is completed, the temporary merge candidate is updated in the inter-site traffic information list. 15. The method of claim 12, wherein when determining that there is the same merger candidate as one intersite merger candidate, one intersite merger candidate is not added to the list of merger candidates, and based on the result determining whether another inter-site merger candidate included in the inter-site traffic information list is the same as at least one merger candidate included in the merger candidate list, determining whether or not to add another inter-site merger candidate sites in the list of merger candidates, and determining whether the other merger candidate between sites is the same as the merger candidate that is the same as one merger candidate between sites is not performed. 16. The method of claim 12, wherein when an inter-site merger candidate that is the same as the first block motion information exists in the merger candidate list, an index assigned to the inter-site merger candidate in the movement between sites, update to the largest value. 17. The method of claim 12, wherein the determination is performed by comparing at least one merger candidate whose index value is greater than a threshold value with one merger candidate between sites. 18. The method of claim 12, wherein the determination is performed by comparing a merge candidate derived from a block at a specific location with one inter-site merge candidate, wherein the specific position includes at least one of the upper right adjacent block or the bottom left adjacent block of the first block. 19. The method according to claim 12, characterized in that the plurality of merge candidates includes a first merge candidate and a second merge candidate, and wherein the first merge candidate and the second merge candidate are included in the merge candidate list for the first block; a first prediction block is generated using the first merge candidate, a second prediction block is generated using the second merge candidate, and a third prediction block is generated based on the first prediction block and the second prediction block. 20. The method of claim 19, wherein the third prediction block is generated based on a weighted sum operation of the first prediction block and the second prediction block. 21. The method of claim 19, wherein information for specifying the merge_idx index information of the first merge candidate and the merge_2nd_idx index information of the second merge candidate are transmitted via a bitstream, respectively. 22. The method according to claim 21, characterized in that when the index information value of merge_2nd_idx is equal to or greater than the index information value of merge_idx, the index value of the second merge candidate is obtained by adding 1 to the index information value of merge_2nd_idx. 23. A video decoding device containing a memory device and a processor, while the storage device is configured to store a computer program capable of running on the processor; And the processor is configured to run a computer program for executing the video decoding method according to any one of claims. 1–11. 24. A video encoding device containing a storage device and a processor, while the storage device is configured to store a computer program capable of running on the processor; And the processor is configured to run a computer program for executing the video encoding method according to any one of claims. 12–22.