JP2013240046A5 - - Google Patents

Description

In order to solve the above-described problem, a video decoding device according to an aspect of the present invention specifies a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and performs coding in units of the specified prediction block. A decoding unit (1108) that decodes index information specifying motion information of the prediction block to be decoded from the encoded stream, and a prediction to be the decoding target Motion information is derived from at least one of a block spatially adjacent to the block and a block temporally adjacent to the block, and a motion information candidate of the prediction block to be decoded is determined as a motion information candidate from the derived motion information. set the candidate list construction unit for constructing a motion information candidate list registers the motion information (3604), the motion information the derived Generating the at new motion information candidate to I, and the candidate list addition unit for adding the generated the motion information candidates in the motion information candidate list, the motion information conversion unit that converts the motion information candidates (3605) Motion compensation for generating a prediction signal of a prediction block to be decoded by performing motion compensation prediction by either uni-prediction or bi-prediction based on the motion information specified by the index information of the motion information candidates A prediction unit (1114). The motion information conversion unit (3605) includes the prediction type information indicating the bi-prediction among the motion information candidates, and the candidate list addition unit adds the motion information candidates to the motion information candidate list, and then performs the single prediction. The motion compensation prediction unit (1114) performs the prediction conversion to convert the prediction type information indicating the prediction type information indicating that the block size of the prediction block to be decoded is a predetermined first size and the specified motion When the prediction type information of information indicates the bi-prediction, the motion compensation prediction is performed based on the motion information converted by the prediction conversion.

Yet another aspect of the present invention is a video decoding method. This method is a moving picture decoding method in which a prediction block is specified from a block in which a picture is divided into a plurality of blocks in stages, and an encoded stream is decoded in the specified prediction block unit. A decoding step of decoding index information specifying motion information of the prediction block to be decoded from the stream, and at least one of a block spatially adjacent to the prediction block to be decoded and a block adjacent in time A candidate list construction step of deriving motion information from the above, and as a motion information candidate of the prediction block to be decoded, registering predetermined motion information from the derived motion information and constructing a motion information candidate list; A new motion information candidate is generated by combining the derived motion information, and the generated motion information is generated. A candidate list addition step of adding a candidate to the motion information candidate list, and the motion information conversion step of converting the motion information candidates, based on the specified motion information by the index information of the motion information candidates, a single A motion compensation prediction step of performing motion compensation prediction by either prediction or bi-prediction and generating a prediction signal of the prediction block to be decoded. The motion information conversion step includes prediction type information indicating the bi-prediction among the motion information candidates, and a prediction indicating the single prediction after the candidate list addition step adds a motion information candidate to the motion information candidate list. Predictive conversion is performed to convert into type information, and the motion compensation prediction step is performed when the block size of the prediction block to be decoded is a predetermined first size, and the prediction type information of the designated motion information is When the bi-prediction is indicated, the motion compensation prediction is performed based on the motion information converted by the prediction conversion.

Yet another embodiment of the present invention is a receiving device. This apparatus specifies a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and receives and decodes an encoded stream in which a moving image is encoded in the specified prediction block unit. A receiving unit that receives encoded data in which the encoded stream is packetized; a recovery unit that processes the received encoded stream to recover the original encoded stream; A decoding unit that decodes index information specifying motion information of the prediction block to be decoded from the encoded stream, a block that is spatially close to the prediction block that is to be decoded, and a block that is temporally close to the prediction block Motion information is derived from at least one of the above, and the motion information candidate of the prediction block to be decoded is derived as the motion information candidate The movement and the candidate list construction unit for constructing a motion information candidate list registers the predetermined motion information to generate a new motion information candidates by combining the motion information the derived, generated from within the can Information Based on the motion information specified by the index information of the motion information candidates , a candidate list adding unit that adds information candidates to the motion information candidate list, a motion information conversion unit that converts the motion information candidates, A motion compensation prediction unit that performs motion compensation prediction by either uni-prediction or bi-prediction and generates a prediction signal of a prediction block to be decoded. The motion information conversion unit adds prediction type information indicating that the motion compensated prediction is performed by the bi-prediction among the motion information candidates, and the candidate list addition unit adds a motion information candidate to the motion information candidate list. Thereafter, prediction conversion is performed to convert into prediction type information indicating that the motion compensation prediction is performed by the single prediction, and the motion compensation prediction unit has a block size of the prediction block to be decoded having a predetermined first size. And when the prediction type information of the designated motion information indicates that the motion compensation prediction is performed by the bi-prediction, the motion compensation prediction is performed by the prediction type information converted by the prediction conversion. Do.

Yet another embodiment of the present invention is a reception method. This method specifies a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and receives and decodes an encoded stream in which a moving image is encoded in the specified prediction block unit. A receiving step for receiving encoded data in which the encoded stream is packetized; a restoring step for packetizing the received encoded stream to restore the original encoded stream; A decoding step for decoding the index information specifying the motion information of the prediction block to be decoded from the encoded stream, a block spatially adjacent to the prediction block to be decoded, and a block adjacent in time Motion information is derived from at least one of the prediction block motion information candidates of the prediction block to be decoded. A candidate list construction step of constructing a motion information candidate list registers the predetermined motion information from among the derived motion information to generate a new motion information candidates by combining the motion information the derived, A candidate list adding step of adding the generated motion information candidate to the motion information candidate list, a motion information converting step of converting the motion information candidate, and a motion designated by the index information of the motion information candidates A motion-compensated prediction step of performing motion-compensated prediction based on the information by either uni-prediction or bi-prediction and generating a prediction signal of the prediction block to be decoded. The motion information conversion step includes prediction type information indicating that the motion compensation prediction is performed by the bi-prediction among the motion information candidates, and the candidate list addition step adds a motion information candidate to the motion information candidate list. Thereafter, prediction conversion is performed to convert into prediction type information indicating that the motion compensation prediction is performed by the single prediction, and the motion compensation prediction step has a block size of the prediction block to be decoded having a predetermined first size. And when the prediction type information of the designated motion information indicates that the motion compensation prediction is performed by the bi-prediction, the motion compensation prediction is performed by the prediction type information converted by the prediction conversion. Do.

Claims (6)

A video decoding device that identifies a prediction block from a block in which a picture is divided into a plurality of blocks and decodes an encoded stream in units of the identified prediction block,
A decoding unit that decodes index information that specifies motion information of the prediction block to be decoded from the encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction unit for registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding unit that generates a new motion information candidate by combining the derived motion information, and adds the generated motion information candidate to the motion information candidate list;
A motion information conversion unit for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded With
The motion information conversion unit is a prediction type information indicating the bi-prediction among the motion information candidates, and a prediction indicating the single prediction after the candidate list adding unit adds a motion information candidate to the motion information candidate list. Perform predictive conversion to convert to type information,
The motion compensation prediction unit is configured when the block size of the prediction block to be decoded is a predetermined first size and the prediction type information of the designated motion information indicates the bi-prediction. A moving picture decoding apparatus that performs the motion compensation prediction based on motion information converted by conversion. A video decoding method for identifying a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and decoding an encoded stream in units of the identified prediction block,
A decoding step of decoding index information specifying motion information of the prediction block to be decoded from the encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction step of registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding step of generating a new motion information candidate by combining the derived motion information, and adding the generated motion information candidate to the motion information candidate list;
A motion information conversion step for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded With steps,
The motion information conversion step includes prediction type information indicating the bi-prediction among the motion information candidates, and a prediction indicating the single prediction after the candidate list addition step adds a motion information candidate to the motion information candidate list. Perform predictive conversion to convert to type information,
The motion compensation prediction step is performed when the block size of the prediction block to be decoded is a predetermined first size and the prediction type information of the designated motion information indicates the bi-prediction. A moving picture decoding method, wherein the motion compensation prediction is performed based on motion information converted by conversion. A moving picture decoding program that identifies a prediction block from a block in which a picture is divided into a plurality of blocks and decodes an encoded stream in units of the identified prediction block,
A decoding step of decoding index information specifying motion information of the prediction block to be decoded from the encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction step of registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding step of generating a new motion information candidate by combining the derived motion information, and adding the generated motion information candidate to the motion information candidate list;
A motion information conversion step for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded Step to the computer,
The motion information conversion step includes prediction type information indicating the bi-prediction among the motion information candidates, and a prediction indicating the single prediction after the candidate list addition step adds a motion information candidate to the motion information candidate list. Perform predictive conversion to convert to type information,
The motion compensation prediction step is performed when the block size of the prediction block to be decoded is a predetermined first size and the prediction type information of the designated motion information indicates the bi-prediction. A moving picture decoding program that performs the motion compensation prediction based on motion information converted by conversion. A receiving device that identifies a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and receives and decodes an encoded stream in which a moving image is encoded in the specified prediction block unit. ,
A receiving unit that receives encoded data in which the encoded stream is packetized;
A restoration unit that packet-processes the received encoded stream to restore the original encoded stream;
A decoding unit that decodes index information that specifies motion information of the prediction block to be decoded from the restored encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction unit for registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding unit that generates a new motion information candidate by combining the derived motion information, and adds the generated motion information candidate to the motion information candidate list;
A motion information conversion unit for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded With
The motion information conversion unit adds prediction type information indicating that the motion compensated prediction is performed by the bi-prediction among the motion information candidates, and the candidate list addition unit adds a motion information candidate to the motion information candidate list. Later, performing prediction conversion to convert into prediction type information indicating that the motion compensation prediction is performed by the single prediction,
The motion compensation prediction unit is a case where the block size of the prediction block to be decoded is a predetermined first size, and the prediction type information of the designated motion information is the motion compensated prediction by the bi-prediction. A receiving apparatus that performs the motion-compensated prediction based on the prediction type information converted by the prediction conversion when indicating to perform. A reception method for specifying a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and receiving and decoding an encoded stream in which a moving image is encoded in the specified prediction block unit. ,
A reception step of receiving encoded data in which the encoded stream is packetized;
A restoration step of packetizing the received encoded stream to restore the original encoded stream;
A decoding step of decoding index information specifying motion information of the prediction block to be decoded from the restored encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction step of registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding step of generating a new motion information candidate by combining the derived motion information, and adding the generated motion information candidate to the motion information candidate list;
A motion information conversion step for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded With steps,
The motion information conversion step includes prediction type information indicating that the motion compensation prediction is performed by the bi-prediction among the motion information candidates, and the candidate list addition step adds a motion information candidate to the motion information candidate list. Later, performing prediction conversion to convert into prediction type information indicating that the motion compensation prediction is performed by the single prediction,
The motion compensation prediction step is a case where the block size of the prediction block to be decoded is a predetermined first size, and the prediction type information of the designated motion information is the motion compensated prediction by the bi-prediction. A reception method, wherein the motion compensation prediction is performed based on the prediction type information converted by the prediction conversion. A reception program that identifies a prediction block from a block in which a picture is divided into a plurality of blocks in stages, and receives and decodes an encoded stream in which a moving image is encoded in the specified prediction block unit. ,
A reception step of receiving encoded data in which the encoded stream is packetized;
A restoration step of packetizing the received encoded stream to restore the original encoded stream;
A decoding step of decoding index information specifying motion information of the prediction block to be decoded from the restored encoded stream;
Motion information is derived from at least one of a block spatially adjacent to the prediction block to be decoded and a block temporally adjacent to the prediction block, and the derived motion is used as a motion information candidate of the prediction block to be decoded. A candidate list construction step of registering predetermined motion information from the information and constructing a motion information candidate list;
A candidate list adding step of generating a new motion information candidate by combining the derived motion information, and adding the generated motion information candidate to the motion information candidate list;
A motion information conversion step for converting the motion information candidates;
Motion compensated prediction based on the motion information specified by the index information of the motion information candidates, and performing motion compensation prediction by either uni-prediction or bi-prediction to generate a prediction signal of the prediction block to be decoded Step to the computer,
The motion information conversion step includes prediction type information indicating that the motion compensation prediction is performed by the bi-prediction among the motion information candidates, and the candidate list addition step adds a motion information candidate to the motion information candidate list. Later, performing prediction conversion to convert into prediction type information indicating that the motion compensation prediction is performed by the single prediction,
The motion compensation prediction step is a case where the block size of the prediction block to be decoded is a predetermined first size, and the prediction type information of the designated motion information is the motion compensated prediction by the bi-prediction. A reception program that performs the motion-compensated prediction based on the prediction type information converted by the prediction conversion when indicating to perform.