RU2003126484A - METHOD AND SYSTEM FOR BURNING INFORMATION OF MOVING IMAGES - Google Patents

Claims (42)

1. A method of compressing information of a moving image, according to which spatially neighboring pixels inside a frame are compared or pixels between temporally neighboring frames are compared to output information about the difference between the pixels, information is stored on the bitmap as to whether the displayed difference information is larger than a predetermined parameter (threshold), and compress the difference information stored in said bitmap that exceeds said parameter (threshold) P, thereby decreasing the amount of redundant information, said method comprising the step of performing the intra picture division into blocks and approximate (replaced) each block of one plane, provided with at least three components for the pixels within each block before interframe compression procedure. 2. The method of compressing information of a moving image according to claim 1, in which the information stored in the bitmap, not exceeding the parameter (threshold), is processed (deleted) as a pixel without changes. 3. The method of compressing moving image information according to one of claims 1 or 2, wherein said approximation of each block in the form of one plane represented by at least three components for pixels uses averaging or least squares method. 4. The method of compressing information of a moving image according to one of claims 1 to 3, in which intra-frame compression is performed with said plane represented by three pieces of data: the brightness of the pixel inside the block, the brightness gradient inside the block in the X direction and the brightness gradient inside the block in the Y direction . 5. A method of compressing moving image information according to one of claims 1 to 4, in which the information stored in the bitmap is compressed using at least one binary image encoding method selected from the group consisting of series length encoding, modified encoding based on the notation relative element address (OOAE), such as modified OOAE (MOOAE) or modified MOOAE (MMOAE), modified Huffman coding (MKX) and JBIG coding (according to the United Rupp experts in binary images). 6. The method of compressing information of a moving image according to one of claims 1 to 5, in which information exceeding the parameter P (threshold) is compressed using adaptive coding according to the Huffman algorithm, for which such a number of Huffman tables is used that corresponds to the expected number of pieces of information . 7. A method of compressing information of a moving image according to one of claims 1 to 6, further comprising the step of reducing the amount of redundant information between frames using statistical encoding. 8. The method of compressing information of a moving image according to claim 7, in which statistical encoding is performed either by adaptive encoding according to the Huffman algorithm, which performs encoding using a table selected from so many Huffman tables that corresponds to the expected number of pieces of information, or by adaptive arithmetic encoding, which performs encoding using a table selected from so many arithmetic tables that matches Gide number of pieces of information. 9. A method of compressing information of a moving image according to one of claims 1 to 8, in which information about the difference between the pixels is used. 10. The method of compressing information of a moving image according to one of claims 1 to 9, in which the difference information is the difference outputted by comparing the pixel t and the pixel t-1 between frames. 11. The method of compressing information of a moving image according to one of claims 1 to 10, in which the difference information is used to compare the pixel t and the pixel t-1 between the said frames, where n × m pixels between the frames form one block (n and m - integers equal to or greater than 2). 12. The method of compressing information of a moving image according to one of claims 1 to 11, in which the difference information is used to compare the pixel t and the pixel t-1 between the said frames, where n × m pixels inside the frame form one block (n and m - integers equal to or greater than 2). 13. The method of compressing information of a moving image according to one of claims 1 to 12, wherein for said n × m pixels between frames, n is 2 ^K (K is an integer) and m is 2 ^{K '} (K' is an integer) . 14. A method of compressing moving image information according to one of claims 1 to 13, further comprising the step of performing intra-frame compression when resizing the separation unit within the same frame before starting the inter-frame compression procedure. 15. A method of compressing information of a moving image, according to which spatially neighboring pixels within a frame are compared or temporally neighboring pixels between frames are compared with the output of the resulting difference information for the pixels, information is stored in the bitmap as to whether the displayed difference information more than a predetermined parameter (threshold), and compress information stored in said bitmap that exceeds said parameter (threshold), thereby reducing the volume redundant information, said method comprising the step of performing intra-frame compression when resizing separation blocks within the same frame before starting the inter-frame compression procedure. 16. The method of compressing information of a moving image according to clause 15, wherein said intra-frame compression is performed by comparing pixels within each block when resizing separation blocks to output the resulting difference information for pixels, and using a smaller block size for the portion including the difference information if the difference information is greater than the parameter (threshold) P. 17. The method of compressing information of a moving image according to any one of Claim 15 or 16, wherein if the information on the difference between the pixels is greater than the parameter (threshold) P, then an even smaller block size is reused. 18. A method of compressing information of a moving image according to one of claims 15-17, further comprising the step of: dividing the image inside the frame into blocks and approximating (replacing) each block with one plane represented by at least three components for pixels inside each block. 19. The method of compressing information of a moving image according to one of claims 15-18, wherein the intra-frame compression is performed using the aforementioned plane represented by three pieces of data: the brightness of the pixel inside the block, the brightness gradient inside the block in the X direction and the brightness gradient inside the block in the direction Y. 20. The method of compressing information of a moving image according to one of claims 15-19, according to which intra-frame compression is performed by compressing the entire image into blocks of n × m pixels (n and m are integers, respectively) using the intra-frame compression method, and pixel comparison the original image and the image unpacked after compression, with the output of the resulting difference information for each pixel, and if there is a pixel that caused the appearance of a larger difference than the parameter (threshold) P, reuse an even smaller block size for the area or surrounding area including this pixel until the intended minimum block size is reached. 21. The method of compressing moving image information according to one of claims 15 to 20, in which, when there is no change in block size as a result of intraframe compression, interframe compression is performed. 22. The method of compressing information of a moving image according to one of claims 15 to 20, in which, when the block size changes to a larger size, the data in the block is output as it is without calculating the difference in relation to this data. 23. The method of compressing information of a moving image according to one of claims 15 to 20, in which, when a block size is changed to a smaller size, the difference is calculated with respect to the previous unpacked data in each section and compressed based on the block size. 24. The method for compressing moving image information according to one of claims 1 to 23, further comprising the step of using frame I subjected to intraframe coding (that is, a control frame, based on which the image can only be reconstructed), spatial separation of the said frame is performed I into blocks I and distribute blocks I between frames along the time axis. 25. The method of compressing information of a moving image according to paragraph 24, in which the aforementioned distribution of blocks I between frames along the time axis is such that block I is not inserted into any block inside the frame that has been updated due to the difference between the frames exceeding the specified parameter (threshold) for a specific period of time. 26. A method of compressing information of a moving image, according to which preliminary separation of the image inside the frame into blocks is performed, approximating (replacing) each of the separation blocks by one plane represented by three pieces of data: the pixel brightness inside each block, the gradient of each block in the X direction and the gradient of each block in the Y direction using the frame I subjected to intraframe coding (that is, a control frame, on the basis of which the image can only be restored), and inserted frame I in a series of frames, said method comprising the step of performing a spatial separation of said frame I into blocks I and not inserting block I into any block inside the frame that has been updated due to the difference between the frames of a given parameter (threshold ) for a specific period of time, with the distribution of blocks I between frames along the time axis. 27. A method of compressing information of a moving image, according to which spatially neighboring pixels inside the frame are compared with each other to display information about the difference in pixel values, store information in the bitmap as to whether the displayed difference information is greater than a given parameter (threshold ), and compressing information stored in the aforementioned bitmap in excess of said parameter (threshold), thereby reducing the amount of redundant information, said method comprising the steps of and which use frame I subjected to intraframe coding (that is, a control frame based solely on which the image can be reconstructed), perform spatial separation of said frame I into blocks I, and do not insert block I into any block inside the frame that was updated due to the difference between the frames exceeding the specified parameter (threshold) during a specific period of time, when the I blocks are distributed between the frames along the time axis. 28. A moving image information compression system that comprises means for recording bitmap information for comparing spatially neighboring pixels within a frame with each other or comparing temporally neighboring pixels between frames, outputting the resulting difference information for the pixels, and storing in the bitmap information regarding whether the displayed difference information is larger than a predetermined parameter (threshold), and information compression means for compressing stored in said a bitmap of information that is larger than said parameter (threshold), thereby reducing the amount of redundant information, said system comprising a block approximation means for dividing an image inside a frame into blocks before starting the interframe compression and approximation (replacement) of each division block with one plane represented by at least three components for pixels within each block. 29. The moving image information compression system according to claim 28, wherein said information compression means processes information stored in the bitmap (erases) that does not exceed a parameter (threshold) as a pixel without changes. 30. The moving image information compression system according to one of Claims 28 or 29, wherein said block approximation means uses averaging or a least squares approximation method to form one plane represented by at least three pixel components. 31. The moving image information compression system according to one of paragraphs 28-30, wherein in said block approximation means said plane is represented by three pieces of data: pixel brightness inside the block, brightness gradient inside the block in the X direction and brightness gradient inside the block in the Y direction . 32. The moving image information compression system according to one of claims 28-31, wherein information stored by the bitmap information recording means is compressed using at least one binary image encoding method selected from the group consisting of modified series length encoding coding OOAE (MOOAE, MMOOAE), modified coding according to the Huffman algorithm (MKH) and coding JBIG. 33. The moving image information compression system according to one of claims 28-32, wherein said information compression means compressing information that exceeds a parameter (threshold) performs adaptive encoding according to the Huffman algorithm, which uses as many Huffman tables as are expected the number of pieces of information. 34. The moving image information compression system according to one of claims 28-32, further comprising statistical encoding means that can reduce the amount of redundant information between frames in which this statistical encoding means performs adaptive encoding using the Huffman algorithm, which encodes using a table selected from such a number of Huffman tables that corresponds to the expected number of pieces of information, or adaptive arithmetic coding, which th performs encoding using a table selected from an amount of arithmetic tables which corresponds to the expected number of pieces of information. 35. The moving image information compression system according to one of claims 28-34, wherein the difference information stored by the bitmap information recording means is the difference outputted by comparing pixel t and pixel t-1 between said frames, where the block is formed by n × m pixels (n and m are integers equal to or greater than 2) inside the frame. 36. The moving image information compression system according to one of claims 28-35, wherein the intra-frame compression means performs intra-frame compression so that the entire image is compressed in blocks of n × m pixels (n and m are integers, respectively) using of the intra-frame compression method, compares the pixels of the original image and the image decompressed after compression, displays the resulting difference information for the pixels, and if there is a pixel that caused a larger difference than the parameter (by horn), then reuses an even smaller block size for the area or surrounding area including that pixel until the intended minimum block size is reached. 37. The moving image information compression system according to one of paragraphs 28-36, in which when there is no change in block size as a result of intra-frame compression performed using the block approximation means, inter-frame compression is performed. 38. The moving image information compression system according to one of claims 28-37, wherein when the block size changes to a larger size as a result of intra-frame compression performed by means of block approximation, additional calculation for the data difference inside the said block is not performed with their conclusion in the form of them as they are. 39. The moving image information compression system according to one of paragraphs 28-37, wherein in the case when the block size changes to a smaller size as a result of intra-frame compression performed using the block approximation means, the difference is calculated with respect to the previous decompressed data within each plot and these differences are compressed based on block size. 40. The moving image information compression system according to one of claims 28-39, further comprising an I block inserter that utilizes frame I subjected to intraframe coding (that is, a control frame exclusively on the basis of which the image can be reconstructed), performs spatial separation of said frame I into blocks I and distributes blocks I between frames along the time axis. 41. The moving image information compression system of claim 40, wherein said block inserter I does not insert block I into any block within a frame that has been updated due to a difference (threshold) being exceeded by the difference between frames over a specific period of time. 42. A moving image information compression system that contains block approximation means by which preliminary image division is performed inside the frame, and each of the preliminary division blocks is approximated (replaced) by one plane represented by the pixel brightness in each block, and the brightness gradient in each block in the X direction and the brightness gradient in each block in the Y direction, said system further comprising means for generating blocks I for spatial dividing frame I subjected to intraframe coding into blocks I, and means for inserting blocks I to insert block I into a certain section, except for a block inside a frame that was updated due to the difference between the frames exceeding a given parameter (threshold) for a specific period of time during block allocation I between frames along the time axis.