US Patent Application 18346704. IMAGE ENCODING AND DECODING METHOD USING BIDIRECTIONAL PREDICTION, AND IMAGE ENCODING AND DECODING APPARATUS simplified abstract
IMAGE ENCODING AND DECODING METHOD USING BIDIRECTIONAL PREDICTION, AND IMAGE ENCODING AND DECODING APPARATUS
Organization Name
Inventor(s)
Seungsoo Jeong of Suwon-si (KR)
IMAGE ENCODING AND DECODING METHOD USING BIDIRECTIONAL PREDICTION, AND IMAGE ENCODING AND DECODING APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18346704 titled 'IMAGE ENCODING AND DECODING METHOD USING BIDIRECTIONAL PREDICTION, AND IMAGE ENCODING AND DECODING APPARATUS
Simplified Explanation
The patent application describes an image decoding method that involves bi-directional prediction of a current block using two reference blocks.
- The method obtains a first reference block and a second reference block for the prediction.
- Weight information for combining the reference blocks is obtained from a bitstream.
- Entropy decoding is performed on the weight information to obtain a weight index.
- The first reference block is combined with the second reference block based on a candidate value indicated by the weight index.
- The current block is reconstructed based on the result of the combining.
- The weight index is entropy-decoded using a context model for the first binary value, and a bypass method for the remaining binary value.
Original Abstract Submitted
Disclosed is an image decoding method according to an embodiment, the image decoding method including: obtaining a first reference block and a second reference block, for bi-directional prediction of a current block; obtaining, from a bitstream, weight information for combining the first reference block with the second reference block; performing entropy decoding on the weight information to obtain a weight index; combining the first reference block with the second reference block according to a candidate value indicated by the weight index among candidate values included in a weight candidate group; and reconstructing the current block based on a result of the combining, wherein a first binary value corresponding to the weight index is entropy-decoded based on a context model, and the remaining binary value corresponding to the weight index is entropy-decoded by a bypass method.
