RU98111206A - ENCODING AND DECODING IMAGES - Google Patents

Claims (64)

1. An image encoding device for encoding a first image using a second image that differs in resolution from the first image, characterized in that it contains enlargement / compression means for enlarging or compressing said second image based on the difference in resolution of the first and second images, the first image encoding means for predictively encoding said first image using the output signal of said means is increased i / compression as a reference image, second image encoding means for encoding said second image, position setting means for setting positions of said first image and said second image in a predetermined absolute coordinate system and outputting first position information or second position information of said first position or a second image, respectively, and multiplexing means for multiplexing the output signals of said first image encoding means, said second image encoding means and said position setting means, wherein said first image encoding means determines a position of said first image based on said first position information and converts said second position information in accordance with a magnification or compression ratio, s using which said enlargement / compression means enlarged or contracted said second image to obtain the position of said reference picture in order to perform predictive coding.  2. An image encoding method for encoding a first image using a second image that differs in resolution from the first image, characterized in that it includes the following steps: enlarging or compressing said second image based on a difference in resolution of the first and second images by using an enlargement device / compression, predictive coding of the specified first image using the output signal of the specified device magnification / compression ia as a reference image by using the first image encoding device, encoding said second image by using a second image encoding device, setting the positions of said first image and said second image in a pre-set absolute coordinate system, and outputting first position information or second position information of said first or second image, respectively, by using triples of positioning and multiplexing the output signals of said first image encoding means, said second image encoding means and said position setting means, wherein said first image encoding device is for determining a position of said first image based on said first position information and converting said second position information in accordance with the degree of increase or the degree of compression, using Ora said device enlargement / compression has enlarged or contracted said second picture to obtain a position of said reference picture in order to perform predictive coding.  3. An image decoding device for decoding encoded data obtained by predictively encoding a first image using a second image that differs in resolution from said first image, characterized in that it contains second image decoding means for decoding the specified second image, enlargement / compression means for enlarging / compressing said second image decoded by said second image decoding means based on differences in resolution of said first and second images, and first image decoding means for decoding said first image by using the output signal of said enlargement / compression means as a reference image, wherein said encoded data includes first or second position information related to the position of the specified first image or the specified second image in a predefined absolute coordinate system, and said first image decoding means determines a position of said first image based on said first position information and converts said second position information in accordance with a magnification degree or a compression ratio with which said enlarging / compressing means enlarged or compressed said second image to obtain a position of said reference image in order to decode the specified first image.  4. The image decoding device according to claim 3, characterized in that it comprises a display device for displaying decoding results of said first image decoding means.  5. A method of decoding images for decoding encoded data obtained by predictively encoding a first image using a second image, different in resolution from said first image, characterized in that it includes the following steps: decoding said second image by using a second image decoding device, enlarging / compression of the specified second image decoded by the specified second decoding device is shown d, based on the difference in resolution of said first and second images by using an enlargement / compression device, and decoding said first image using an output signal of said enlargement / compression device as a reference image by using a first image decoding device, wherein said encoded data include first or second position information related to a position of said first image or said second second image in a pre-set absolute coordinate system, wherein said first image decoding device is for determining a position of said first image based on said first position information and converting said second position information in accordance with a magnification ratio or a compression ratio using which said magnification device / compression enlarged or contracted the specified second image to obtain the position of the specified op dimensional image in order to decode said first picture.  6. The method of decoding images according to claim 5, characterized in that they display the decoding results of the specified first image decoding device.  7. A recording medium with encoded data recorded thereon obtained by encoding a first image using a second image differing in resolution from the first image, said encoded data including at least the first data obtained by predictively encoding said the first image using the enlarged or compressed results obtained by enlarging or compressing the specified second image based on differences in the resolution of the first and second images, the second data obtained by encoding the specified second image, and the first or second position information obtained by setting the positions of the specified first and second images in a pre-set absolute coordinate system, and the position of the specified first image is determined based on said first position information, and said second position information is converted in accordance with the degree of increase or the degree of compression the technique by which the specified second image was enlarged or compressed to obtain the position of the specified reference image in order to perform predictive coding.  8. A recording method for recording encoded data obtained by encoding a first image using a second image that differs in resolution from the first image, characterized in that said encoded data includes at least the first data obtained by predictively encoding said a first image using enlarged or compressed results as a reference image obtained by enlarging or compressing said second image based on times the resolution in the specified first and second images, the second data obtained by encoding the specified second image, and the first or second position information obtained by setting the positions of the specified first and second images in a pre-set absolute coordinate system, and the position of the specified first image is determined on based on the specified first position information, and the specified second position information is converted in accordance with the degree of increase or the compression point with which the specified second image was enlarged or compressed to obtain the position of the specified reference image in order to perform predictive coding.  9. An image encoding device for encoding a first image using a second image that differs in resolution from the first image, characterized in that it contains enlargement / compression means for enlarging or compressing said second image based on the difference in resolution of the first and second images, the first image encoding means for predictively encoding said first image using the output signal of said means is increased i / compression as a reference image, second image encoding means for encoding said second image, position setting means for setting positions of said first image and said second image in a predetermined absolute coordinate system and outputting first position information or second position information of said first position or a second image, respectively, and multiplexing means for multiplexing the output signals of said first image encoding means, said second image encoding means and said position setting means, wherein said position setting means sets the positions of said first and second images so that the position of said reference image in said predetermined absolute coordinate system coincides with the preset position, and wherein said first image encoding means determines the position of said first image zheniya based on the first position information and determines pre .ustanovlennoe position to obtain the position of said reference picture in order to perform predictive coding.  10. An image encoding method for encoding a first image using a second image that differs in resolution from the first image, characterized in that it includes the following operations: enlarging or compressing said second image based on a difference in resolution of the first and second images by using an enlargement device / compression, predictive coding of the specified first image using the output signal of the specified device magnification / compressing as a reference image by using a first image encoding device, encoding said second image by using a second image encoding device, setting the positions of said first image and said second image in a preset absolute coordinate system and outputting first position information or second position information of said first or second image, respectively, by using I am a position setting device, and multiplexing the output signals of said first image encoding means, said second image encoding means and said position setting means, wherein said position setting device is for setting a position of said first and second images, so that the position of said reference image in said preset absolute coordinate system coincides with a preset position, and said first image encoding device is for determining a position of said first image based on said first position information and determining said predetermined position to obtain a position of said reference image in order to perform predictive encoding.  11. An image decoding device for decoding encoded data obtained by predictively encoding a first image using a second image that differs in resolution from said first image, characterized in that it comprises second image decoding means for decoding the specified second image, enlargement / compression means for enlarging / compressing said second image decoded by said second image decoding means based on differences in resolution of said first and second images, and first image decoding means for decoding said first image by using the output signal of said enlargement / compression means as a reference image, wherein said encoded data includes first or second position information related to the position of the specified first image or the specified second image in a predefined absolute coordinate system, and the position of said reference image in said predetermined absolute coordinate system is set to coincide with a predetermined position, and said first image decoding means determines a position of said first image based on said first position information and determines a predetermined position to obtain a position of said reference image in order to decode the specified first image.  12. The image decoding apparatus according to claim 11, characterized in that it comprises a display device for displaying decoding results of said first image decoding means.  13. An image decoding method for decoding encoded data obtained by predictively encoding a first image using a second image different in resolution from said first image, characterized in that it includes the following steps: decoding said second image by using a second image decoding device, enlarging / compression of said second image decoded by said second decoding device is shown based on a difference in resolution between said first and second images by using an enlargement / compression device, and decoding said first image using an output signal of said enlargement / compression device as a reference image by using a first image decoding device, wherein said encoded data include first or second position information related to a position of said first image or said of the second image in the pre-set absolute coordinate system, the position of the specified reference image in the specified pre-set coordinate system is set to coincide with the pre-set position, and the specified first image decoding device is used to determine the position of the specified first image based on the first position information and determining a predetermined position, to obtain the position of the specified reference image in order to decode the specified first image.  14. The method of decoding images according to claim 13, characterized in that they display the decoding results of the specified first image decoding device.  15. A recording medium with encoded data recorded thereon obtained by encoding a first image using a second image that differs in resolution from the first image, said encoded data including at least the first data obtained by predictively encoding the first images using enlarged or compressed results as a reference image obtained by enlarging or compressing said second image based on differences in the resolution of the first and second images, the second data obtained by encoding the specified second image, and the first or second position information obtained by setting the positions of the specified first and second images in a pre-set absolute coordinate system, and the specified first and second information are set as that the position of the specified reference image in the specified pre-set absolute coordinate system will coincide with the pre-set ment of the situation.  16. A recording method for recording encoded data obtained by encoding a first image using a second image that differs in resolution from the first image, wherein said encoded data includes at least the first data obtained by predictively encoding said first image using enlarged or compressed results as a reference image obtained by enlarging or compressing said second image based on a difference in times the deciding ability of the specified first and second images, the second data obtained by encoding the specified second image, and the first or second position information obtained by setting the positions of the specified first and second images in a pre-set absolute coordinate system, and the specified first or second position are set so that the position of the specified reference image will coincide with the preset position.  17. An image encoding device for predictively encoding an image, characterized in that it comprises first predictive encoding means for predictively encoding the specified image using the determined motion vector of the specified image, local decoding means for locally decoding predictive encoding results using the first predictive encoding means, second predictive encoding means for predictively encoding said The images with the reference image as a locally decoded image output by said local decoding means, and multiplexing means for multiplexing the results of predictive coding said first and second predictive coding means.  18. An image encoding method for predictively encoding an image, characterized in that it includes the following steps: predictively encoding a specified image using a determined motion vector of a specified image to obtain first encoded data, local decoding of said first encoded data, predictive encoding of said image using locally decoded image obtained by local decoding to obtain the specified codes ovannyh data, and multiplexing said first encoded data and said second encoded data.  19. An image decoding apparatus for decoding encoded data, characterized in that it comprises separation means for separating the first and second data in said encoded data, first decoding means for decoding said first data and second decoding means for decoding said second data using the output signal of said first decoding means as a reference image, wherein said encoded data includes a motion vector using used in predictive coding of said first data, and said second decoding means decodes said second data in accordance with said motion vector used in predictive coding of said first data.  20. An image decoding method for decoding encoded data, characterized in that it includes the following steps: separating the first and second data in said encoded data by using a separation device, decoding said first data by using a first decoding device, and decoding said second data by using a second device decoding using the output signal of the specified first decoding device as a reference about the image, wherein said coded data includes the motion vector used in predictive coding said first data and said second decoding device intended to decode said second data in accordance with said motion vector used in predictive coding said first data.  21. A recording medium with encoded data recorded thereon obtained by predictively encoding the specified image by using the determined motion vector of the specified image to obtain the first encoded data, local decoding of the first encoded data, predictive encoding of the specified image using the locally decoded image obtained in the result of local decoding, to obtain second collated data, and multiplexers Nia said first encoded data and said second encoded data.  22. A method for recording encoded data obtained by predictively encoding an image in which said encoded data is obtained by predictively encoding a specified image by using a determined motion vector of said image to obtain first encoded data, locally decoding said first encoded data, predictively encoding said image using a locally decoded image resulting from a local deco coding to obtain second encoded data, and multiplexing said first encoded data and said second encoded data.  23. A device for encoding data of one or more images, in which images of two or more levels can be an I-image obtained by internal coding, a P-image obtained by internal coding or direct predictive coding, and a B-image obtained by internal coding, direct predictive coding, reverse predictive coding or bidirectional predictive coding, and are encoded based on macroblocks, in which ix whether or not a macroblock is a skip macro-block is performed based on information of the reference picture used in encoding a macroblock of said B-picture by one of the types of coding: forward predictive coding, backward predictive coding or bidirectionally predictive coding.  24. The device according to p. 23, wherein said reference image information determines that when coding a macroblock of said B-image at an appropriate level, the image of the same level and in which the macroblock of said B-image is skipped macroblock, if from the macroblocks forming the I- or P-image decoded immediately before decoding this macroblock of the B-image, the macroblock corresponding to the macroblock of the specified B-iso Brazi is a skipped macroblock.  25. The device according to p. 23, wherein said reference image information determines that when encoding a macroblock of said B-image at an appropriate level, an image of the same level and in which the macroblock of said B-image is a skipped macroblock if said macroblock can be decoded from an image decoded before said macroblock is decoded.  26. The device according to p. 23, characterized in that the information of the reference image determines that when encoding a macroblock of the specified B-image in the corresponding level, the image for the same moment in time, but of a level different from the corresponding level, and in which the macroblock of the specified B-image is a skip macroblock, if the specified macroblock can be decoded from the image decoded before the specified macro is decoded block.  27. A method for encoding data of one or more images, in which images of two or more levels can be an I-image obtained by internal coding, a P-image obtained by internal coding or direct predictive coding, and a B-image obtained by internal coding, forward predictive coding, reverse predictive coding, or bidirectional predictive coding, and are encoded based on macroblocks in which the definitions of whether or not a macroblock is a skip macroblock, the reference image is carried out on the basis of information that specifies a reference picture used in encoding a macro-block of said B-picture by one of the encoding types: forward predictive coding, backward predictive coding or bidirectionally predictive coding.  28. An image decoding apparatus for decoding encoded data of one or more images, in which images of two or more levels can be an I-image obtained by internal encoding, a P-image obtained by internal encoding or direct predictive encoding, and a B-image obtained by internal coding, direct predictive coding, reverse predictive coding, or bidirectional predictive coding, and a decode image processing based on macroblocks, in which the determination of whether or not a macroblock is a passable macroblock is carried out on the basis of reference image information, which determines the reference image used when encoding a macroblock of a specified B-image using one of the types of coding: direct predictive coding, inverse predictive coding or bidirectional predictive coding.  29. The image decoding apparatus according to claim 28, wherein said reference image information determines that when encoding a macroblock of said B-image at an appropriate level, an image of the same level should be used as a reference image, and in which the macroblock of said B β-image is a skipped macroblock if, from macroblocks forming an I- or P-image, decoded immediately before decoding this macroblock of a B-image, the macroblock corresponding to akrobloku of said B-picture is a skip macroblock.  30. The image decoding apparatus according to claim 28, wherein said reference image information determines that when encoding a macroblock of said B-image at an appropriate level, an image of the same level should be used as a reference image, and in which the macroblock of said B -images is a skip macroblock if said macroblock can be decoded from an image decoded before said macroblock is decoded.  31. The image decoding apparatus according to claim 28, characterized in that said reference image information determines that when encoding a macroblock of said B-image at an appropriate level, the image for the same moment in time, but at a level different from the corresponding level, and in which the macroblock of the specified B-image is a skip macroblock, if the specified macroblock can be decoded from an image decoded before Odir said macroblock.  32. An image decoding method for decoding encoded data of one or more images, in which images of two or more levels can be an I-image obtained by internal encoding, a P-image obtained by internal encoding or direct predictive encoding, and a B-image obtained by internal coding, direct predictive coding, reverse predictive coding or bidirectional predictive coding, and decoders images based on macroblocks, and the determination of whether or not a macroblock is a passable macroblock is carried out on the basis of reference image information, which determines the reference image used when encoding a macroblock of a specified B-image using one of the types of encoding: direct predictive encoding, reverse predictive encoding or bidirectional predictive coding.  33. A recording medium with encoded data of one or more images recorded on it, in which images of two or more levels can be an I-image obtained by internal coding, a P-image obtained by internal coding or direct predictive coding, and B- an image obtained by internal coding, direct predictive coding, reverse predictive coding, or bidirectional predictive coding, in which image data The equations are encoded on the basis of macroblocks, and the determination of whether or not the macroblock is a skipped macroblock is made on the basis of the reference image information, which determines the reference image used when encoding the macroblock of the specified B-image using one of the encoding types: direct predictive encoding, reverse predictive encoding or bidirectional predictive coding.  34. A recording method for recording encoded data of one or more images, in which images of two or more levels may be an I-picture obtained by internal coding, a P-picture obtained by internal coding or direct predictive coding, and a B-picture obtained by internal coding, direct predictive coding, reverse predictive coding, or bidirectional predictive coding, in which the image data is encoded on the basis of macroblocks, wherein determining whether or not the macroblock is a skipped macroblock is carried out It is based on the information of the reference image, which determines the reference image used in coding the macroblock of the specified B-image by one of the types of coding: direct predictive coding, reverse predictive coding, or bidirectional predictive coding.  35. The image encoding device according to claim 1, characterized in that said multiplexing means multiplexes the difference between the values of the first position information and the values of the second position information.  36. The image encoding device according to claim 1, characterized in that if said first image or said second image is resized, said multiplexing means multiplexes the first size information of said first image or the second size information of said second image.  37. The image encoding device according to claim 1, characterized in that said multiplexing means multiplexes the difference between the values of the first size information of the specified first image and the values of the second size information of the specified second image.  38. The image decoding apparatus according to claim 3, characterized in that said encoded data includes difference values between the values of the first size information of said first image and the values of second size information of said second image.  39. The image decoding apparatus according to claim 3, characterized in that if said first image or said second image is resized, said encoded data includes first size information of said first image and second size information of said second image.  40. The image decoding apparatus according to claim 39, wherein said encoded data includes difference values between the values of the first size information and the values of the second size information.  41. The recording medium according to claim 7, characterized in that said encoded data includes difference values between the values of the first position information and the values of the second position information.  42. The recording medium according to claim 7, characterized in that if said first image or said second image is resized, said encoded data includes first size information of said first image or second size information of said second image, respectively.  43. The recording medium according to claim 42, wherein said encoded data includes difference values between the values of the first size information of said first image and the values of second size information of said second image.  44. The image encoding device according to claim 9, characterized in that said multiplexing means multiplexes the difference between the values of the first size information and the values of the second size information.  45. The image encoding device according to claim 9, characterized in that if said first image or said second image is resized, said multiplexing means multiplexes the first size information of said first image or the second size information of said second image.  46. The image encoding device according to claim 45, characterized in that said multiplexing means multiplexes the difference values between the values of the first size information and the values of the second size information.  47. The image decoding apparatus according to claim 11, characterized in that said encoded data includes difference values between the values of the first size information of said first image and the values of second size information of said second image.  48. The image decoding apparatus according to claim 11, characterized in that if said first image or said second image is resized, said encoded data includes first size information of said first image and second size information of said second image.  49. The image decoding apparatus according to claim 48, wherein said encoded data includes difference values between the values of the first size information and the values of the second size information.  50. The recording medium according to claim 15, wherein said encoded data includes difference values between the values of the first position information and the values of the second position information.  51. The recording medium according to claim 15, characterized in that if said first image or said second image is resized, said encoded data includes first information about the size of said first image and second information about the size of said second image.  52. The recording medium according to claim 51, wherein said encoded data includes difference values between the values of the first size information and the values of the second size information.  53. The image encoding device according to claim 17, characterized in that said first predictive encoding means predictively encodes the specified image, compressed by a predetermined multiplication factor, while said second predictive encoding means predictively encodes the specified image using, as a reference image , an image obtained by enlarging the specified locally decoded image using the specified preset multiplied coefficient.  54. The image decoding apparatus according to claim 19, characterized in that said first decoding means decodes said image, compressed by a predetermined multiplication factor, from said first data, wherein said second decoding means decodes said second data using, as a reference an image, an output signal of said first decoding means enlarged by a predetermined multiplication factor, and using vaniem motion vector obtained in the conversion of said motion vector used in predictive coding said first data by said predetermined multiplication coefficient.  55. The recording medium according to claim 21, characterized in that said first encoded data is obtained by predictively encoding said image, compressed by a predetermined multiplication factor, said second encoded data being obtained by predictively encoding said image using, as a reference image, the specified locally decoded image magnified by the specified preset ratio but multiplication.  56. An image processing apparatus for variable-length encoding or variable-length decoding of a resizable image by using a preset table that is modified in accordance with changes in the size of said image.  57. An image processing method for variable-length encoding or variable-length decoding of a resizable image by using a preset table, characterized in that it includes the steps of evaluating whether or not the size of the specified image has changed and modifying the specified preset table, used for variable-length encoding or variable-length decoding, in accordance with changes in the size of the specified image Nia.  58. An image processing apparatus for variable-length encoding or variable-word decoding encoded data obtained by predictively encoding an image from two or more levels by using a preset table in which said preset table is modified according to whether or no, as a reference image, an image of a different level, but with the same time reference as the encoded level Bragging.  59. An image processing method for variable word length encoding or variable word length decoding of encoded data obtained by predictively encoding an image from two or more levels by using a preset table, comprising the steps of modifying said preset table used for variable length encoding words or decoding with a variable word length, according to whether it was used or not, as a reference of images, another level image, but with the same time reference as the encoded image level.  60. An image encoding device for quantizing an image by a preset quantization step, comprising a multiplexing device for multiplexing the quantization results of the specified image and the specified preset quantization step, in which the specified preset quantization step is quantized only if not all the pixel value quantization results in the preset the block of the specified image have the same value.  61. An image decoding apparatus for decoding encoded data obtained by quantizing an image using a preset quantization step, and multiplexing the quantization results of the specified image and the specified preset quantization step, wherein said encoded data includes the specified preset quantization step only if not all pixel value quantization results in a predefined block are specified images have the same meaning.  62. An image decoding method for decoding encoded data obtained by quantizing an image using a preset quantization step, and multiplexing the quantization results of the specified image and the specified preset quantization step, wherein said encoded data includes the specified preset quantization step only if not all results of quantization of pixel values in a pre-installed block specified The images are of the same value.  63. A recording medium with encoded data recorded thereon obtained by quantizing an image using a predetermined quantization step, and multiplexing the quantization results of the specified image and the specified preset quantization step, in which the encoded data includes the specified preset quantization step, only if not all the results of quantization of pixel values in a pre-installed block of the specified image hav e the same value.  64. A recording method for recording encoded data obtained by quantizing an image using a preset quantization step, and multiplexing the quantization results of the specified image and the specified preset quantization step, wherein said encoded data includes the specified preset quantization step, only if not all the results of quantization of pixel values in a pre-installed block of the specified image have the same e value.