JP2013201532A5 - - Google Patents

Description

A moving picture decoding apparatus for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture, a motion information deriving unit for deriving motion information of a decoding target block; When the decoding target block is equal to or smaller than a predetermined size, for the decoding target block equal to or smaller than the predetermined size, a motion information changing unit that changes the derived motion information, and when the decoding target block is larger than the predetermined size, A prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size , the changed motion is immediately after the change of the motion information. And a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensated prediction using information. To provide a location.
A moving image decoding apparatus that decodes a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving image, and a motion of a block spatially or temporally adjacent to a decoding target block A motion information candidate list generating unit that generates a motion information candidate list in which motion information candidates derived from information are registered, and predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list A motion information decoding unit that decodes the indicated index, and the predetermined motion information is selected from the motion information candidate list based on the decoded index, and when the decoding target block is smaller than or equal to a predetermined size, the predetermined size For the following decoding target block, a motion information changing unit that changes the selected predetermined motion information, and the decoding target block If There larger than the predetermined size, using the predetermined motion information said selected to generate a prediction signal of the decoding target block by motion compensation prediction, when the decoding target block is less than the predetermined size, Immediately after the change of the motion information, a moving picture decoding comprising: a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information Providing equipment.
A moving picture decoding method for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture, wherein a motion information deriving step for deriving motion information of a decoding target block; When the decoding target block is a predetermined size or less, for the decoding target block having the predetermined size or less, a motion information changing step for changing the derived motion information, and when the decoding target block is larger than the predetermined size, A prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size, the changed motion is immediately after the change of the motion information. A prediction signal generation step of generating a prediction signal of the decoding target block by motion compensation prediction using information. To provide a moving picture decoding method according to symptoms.
A moving image decoding method for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving image, wherein a motion of a block spatially or temporally adjacent to a decoding target block A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from information are registered; and predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list. A motion information decoding step for decoding the indicated index; and, based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is equal to or smaller than a predetermined size, the predetermined size For the following decoding target block, a motion information changing step for changing the selected predetermined motion information; When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensated prediction using the changed predetermined motion information immediately after the change of the motion information is provided. A moving picture decoding method is provided.
A motion picture decoding program for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a motion picture, a motion information derivation step for deriving motion information of a decoding target block; When the decoding target block is a predetermined size or less, for the decoding target block having the predetermined size or less, a motion information changing step for changing the derived motion information, and when the decoding target block is larger than the predetermined size, Prediction signal generation using the derived motion information to generate a prediction signal of the decoding target block by motion compensation prediction using the changed motion information when the decoding target block is equal to or smaller than the predetermined size And a step of causing a computer to execute the steps.
A moving image decoding program for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving image, the motion of a block spatially or temporally adjacent to a decoding target block A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from information are registered; and predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list. A motion information decoding step for decoding the indicated index; and, based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is equal to or smaller than a predetermined size, the predetermined size For the following decoding target blocks, a motion information change step for changing the selected predetermined motion information. When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is the predetermined size. If it is smaller than the size, immediately after the change of the motion information, the computer executes a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information A moving picture decoding program is provided.
A receiving apparatus that receives and decodes a code sequence in which a moving image is encoded, and a code sequence in which the moving image is encoded using motion compensation prediction in units of blocks obtained by dividing each picture of the moving image is a packet A receiving unit that receives the encoded stream, a restoration unit that restores the original code sequence by processing the received packetized encoded stream, and a motion that derives motion information of the decoding target block An information deriving unit, a motion information changing unit that changes the derived motion information for a decoding target block having a predetermined size or less when the decoding target block is equal to or smaller than a predetermined size, and the decoding target block having the predetermined size Is larger than, the prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and the decoding target block is A prediction signal generation unit configured to generate a prediction signal of the decoding target block by motion compensation prediction using the changed motion information immediately after the change of the motion information when the size is equal to or less than a predetermined size, A receiving apparatus is provided.
A receiving apparatus that receives and decodes a code sequence in which a moving image is encoded, and a code sequence in which the moving image is encoded using motion compensation prediction in units of blocks obtained by dividing each picture of the moving image is a packet A receiving unit that receives the encoded stream, a restoration unit that processes the received packetized encoded stream to restore the original code stream, and a decoding target block spatially or temporally Registered in the motion information candidate list from the motion information candidate list generating unit that generates a motion information candidate list in which motion information candidates derived from the motion information of adjacent blocks are registered, and the restored original code string A motion information decoding unit that decodes an index indicating predetermined motion information to be selected from the motion information candidates, and the motion information based on the decoded index. When the predetermined motion information is selected from the information candidate list, and the decoding target block is smaller than or equal to a predetermined size, the motion information change for changing the selected predetermined motion information for the decoding target block smaller than or equal to the predetermined size And when the decoding target block is larger than the predetermined size, the prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is A prediction signal generation unit that generates a prediction signal of the block to be decoded by motion compensation prediction using the changed predetermined motion information immediately after the change of the motion information when the size is equal to or smaller than a predetermined size; A receiving device is provided.
A receiving method for receiving and decoding a code sequence in which a moving image is encoded, wherein a code sequence in which the moving image is encoded using motion compensation prediction in units of blocks obtained by dividing each picture of the moving image is a packet A reception step of receiving the encoded stream, a restoration step of performing packet processing on the received packetized encoded stream to restore the original code stream, and a motion of deriving motion information of the decoding target block An information deriving step, a motion information changing step for changing the derived motion information for a decoding target block having a size equal to or smaller than the predetermined size when the decoding target block is equal to or smaller than a predetermined size, and the decoding target block having the predetermined size If larger than, the prediction signal of the decoding target block is generated by motion compensated prediction using the derived motion information, A prediction signal generating step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed motion information immediately after the change of the motion information when the decoding target block is equal to or smaller than the predetermined size; A receiving method is provided.
A receiving method for receiving and decoding a code sequence in which a moving image is encoded, wherein a code sequence in which the moving image is encoded using motion compensation prediction in units of blocks obtained by dividing each picture of the moving image is a packet A receiving step for receiving the encoded stream, a restoration step for restoring the original code sequence by packet processing the received packetized encoded stream, and a decoding target block spatially or temporally A motion information candidate list generation step for generating a motion information candidate list in which motion information candidates derived from motion information of adjacent blocks are registered, and the restored original code string are registered in the motion information candidate list. A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates; and the decoded index If the predetermined motion information is selected from the motion information candidate list and the decoding target block is smaller than or equal to a predetermined size, the selected predetermined motion for the decoding target block smaller than or equal to the predetermined size is selected. A motion information changing step for changing information, and when the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information. When the decoding target block is equal to or smaller than the predetermined size, immediately after the change of the motion information, prediction that generates a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information And a signal generation step. A reception method is provided.
A receiving program that receives and decodes a code sequence in which a moving image is encoded, and a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is a packet A reception step of receiving the encoded stream, a restoration step of performing packet processing on the received packetized encoded stream to restore the original code stream, and a motion of deriving motion information of the decoding target block An information deriving step, a motion information changing step for changing the derived motion information for a decoding target block having a predetermined size or less when the decoding target block is a predetermined size or less, and the decoding target block having the predetermined size or less If the block to be decoded is equal to or smaller than the predetermined size using the derived motion information, Using the serial changes motion information and provides a received program characterized by executing a prediction signal generating step of generating a prediction signal of the decoding target block by motion compensation prediction on the computer.
A receiving program that receives and decodes a code sequence in which a moving image is encoded, and a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is a packet A receiving step for receiving the encoded stream, a restoration step for restoring the original code sequence by packet processing the received packetized encoded stream, and a decoding target block spatially or temporally A motion information candidate list generation step for generating a motion information candidate list in which motion information candidates derived from motion information of adjacent blocks are registered, and the restored original code string are registered in the motion information candidate list. A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates; Based on the index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected predetermined motion is selected for the decoding target block having the predetermined size or smaller. A motion information changing step for changing information, and when the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information. When the decoding target block is equal to or smaller than the predetermined size, immediately after the change of the motion information, prediction that generates a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information Provided is a reception program that causes a computer to execute a signal generation step.

Claims (14)

A moving picture decoding apparatus for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture,
A motion information deriving unit for deriving motion information of a decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing unit that changes the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size. A moving picture decoding apparatus comprising: a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensation prediction using the changed motion information immediately after the change of the motion information. A moving picture decoding apparatus for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture,
A motion information candidate list generating unit that generates a motion information candidate list in which motion information candidates derived from motion information of blocks that are spatially or temporally adjacent to the decoding target block are registered;
A motion information decoding unit that decodes an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing unit for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information immediately after the change of the motion information is provided. A moving picture decoding apparatus.   The moving image decoding apparatus according to claim 2, wherein the motion information changing unit changes bi-prediction information as the change of the predetermined motion information. The video decoding device according to claim 2, wherein the motion information changing unit changes at least the prediction type from bi-prediction to uni-prediction as the change of the predetermined motion information. A moving picture decoding method for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture,
A motion information deriving step for deriving motion information of the decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing step for changing the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size. And a prediction signal generating step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed motion information immediately after the change of the motion information. A moving picture decoding method for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving picture,
A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from motion information of spatially or temporally adjacent blocks to the decoding target block are registered;
A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing step for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensated prediction using the changed predetermined motion information immediately after the change of the motion information is provided. A moving picture decoding method. A moving image decoding program for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving image,
A motion information deriving step for deriving motion information of the decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing step for changing the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size, using the changed motion information, motion compensated prediction And a prediction signal generation step of generating a prediction signal of the decoding target block by a computer. A moving image decoding program for decoding a code string encoded using motion compensated prediction in units of blocks obtained by dividing each picture of a moving image,
A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from motion information of spatially or temporally adjacent blocks to the decoding target block are registered;
A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing step for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, immediately after the change of the motion information, the computer executes a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information. A video decoding program characterized by the above. A receiving device that receives and decodes a code string in which a moving image is encoded,
A receiving unit that receives an encoded stream in which a code sequence in which the moving image is encoded using motion-compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration unit that packet-processes the received packetized coded stream to restore the original code string;
A motion information deriving unit for deriving motion information of a decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing unit that changes the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size. A receiving apparatus comprising: a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensation prediction using the changed motion information immediately after the change of the motion information. A receiving device that receives and decodes a code string in which a moving image is encoded,
A receiving unit that receives an encoded stream in which a code sequence in which the moving image is encoded using motion-compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration unit that packet-processes the received packetized coded stream to restore the original code string;
A motion information candidate list generating unit that generates a motion information candidate list in which motion information candidates derived from motion information of blocks that are spatially or temporally adjacent to the decoding target block are registered;
A motion information decoding unit for decoding an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list from the restored original code string;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing unit for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, a prediction signal generation unit that generates a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information immediately after the change of the motion information is provided. Receiving device. A receiving method for receiving and decoding a code string in which a moving image is encoded,
A reception step of receiving an encoded stream in which a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration step of packetizing the received packetized coded stream to restore the original code sequence;
A motion information deriving step for deriving motion information of the decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing step for changing the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size. the immediately following the change of the motion information, using the motion information that has changed, the reception method characterized by comprising a prediction signal generating step of generating a prediction signal of the decoding target block by motion compensation prediction. A receiving method for receiving and decoding a code string in which a moving image is encoded,
A reception step of receiving an encoded stream in which a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration step of packetizing the received packetized coded stream to restore the original code sequence;
A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from motion information of spatially or temporally adjacent blocks to the decoding target block are registered;
A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list from the restored original code string;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing step for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information immediately after the change of the motion information is provided. To receive. A receiving program for receiving and decoding a code string in which a moving image is encoded,
A reception step of receiving an encoded stream in which a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration step of packetizing the received packetized coded stream to restore the original code sequence;
A motion information deriving step for deriving motion information of the decoding target block;
When the decoding target block is a predetermined size or less, a motion information changing step for changing the derived motion information for the decoding target block having the predetermined size or less;
When the decoding target block is larger than the predetermined size, using the derived motion information, and when the decoding target block is equal to or smaller than the predetermined size, using the changed motion information, motion compensated prediction A reception program that causes a computer to execute a prediction signal generation step of generating a prediction signal of the decoding target block. A receiving program for receiving and decoding a code string in which a moving image is encoded,
A reception step of receiving an encoded stream in which a code sequence in which the moving image is encoded using motion compensated prediction in units of blocks obtained by dividing each picture of the moving image is packetized;
A restoration step of packetizing the received packetized coded stream to restore the original code sequence;
A motion information candidate list generating step for generating a motion information candidate list in which motion information candidates derived from motion information of spatially or temporally adjacent blocks to the decoding target block are registered;
A motion information decoding step for decoding an index indicating predetermined motion information to be selected from the motion information candidates registered in the motion information candidate list from the restored original code string;
Based on the decoded index, the predetermined motion information is selected from the motion information candidate list, and when the decoding target block is not larger than a predetermined size, the selected decoding target block having the predetermined size or smaller is selected. A motion information changing step for changing the predetermined motion information;
When the decoding target block is larger than the predetermined size, a prediction signal of the decoding target block is generated by motion compensation prediction using the selected predetermined motion information, and the decoding target block is equal to or smaller than the predetermined size. In this case, immediately after the change of the motion information, the computer executes a prediction signal generation step of generating a prediction signal of the decoding target block by motion compensation prediction using the changed predetermined motion information. A receiving program characterized by the above.