PATENT CLAIM ANALYSIS

Application Number: 16119446
Application Type: Utility
Filing Date: 2018-08
Publication Date: 2019-01
Patent Classification: ["375", "240160"]

Abstract:
When a block (MB 22 ) of which motion vector is referred to in the direct mode contains a plurality of motion vectors,  2  motion vectors MV 23  and MV 24 , which are used for inter picture prediction of a current picture (P 23 ) to be coded, are determined by scaling a value obtained from averaging the plurality of motion vectors or selecting one of the plurality of the motion vectors.

Claim (Index 1):
An image decoding method for decoding coded data of a decoding target block included in a decoding target picture in direct mode, wherein the coded data is generated by the following steps:\n a step of specifying a co-located block which is a block included in a second picture that is different from a coding target picture including a coding target block, the co-located block being located in the second picture at the same position that the coding target block is located in the coding target picture; a step of determining a first motion vector and a second motion vector of the coding target block for performing motion compensation on the coding target block, using a third motion vector which is a motion vector of the co-located block; a step of generating a first predictive image of the coding target block using the first motion vector of the coding target block and a second predictive image of the coding target block using the second motion vector of the coding target block; a step of generating a predictive image of the coding target block based on the first predictive image and the second predictive image; and a step of coding a difference image between the coding target block and the predictive image of the coding target block to obtain a coded difference image of the coding target block, the image decoding method comprising: specifying a co-located block which is a block included in a second picture that is different from the decoding target picture including a decoding target block, the co-located block being located in the second picture at the same position that the decoding target block is located in the decoding target picture; determining a first motion vector and a second motion vector of the decoding target block for performing motion compensation on the decoding target block, using a third motion vector which is a motion vector of the co-located block; generating a first predictive image of the decoding target block using the first motion vector of the decoding target block and a second predictive image of the decoding target block using the second motion vector of the decoding target block; generating a predictive image of the decoding target block based on the first predictive image and the second predictive image; decoding the coded data of the decoding target block to obtain a difference image of the decoding target block; and reconstructing the decoding target block by adding the difference image of the decoding target block and the predictive image of the decoding target block, wherein the co-located block is motion-compensated using a first motion vector corresponding to a first reference picture of the co-located block and a second motion vector corresponding to a second reference picture of the co-located block, wherein, in the case where the first reference picture of the co-located block is stored in a long-term picture buffer and a second reference picture of the co-located block is stored in a short-term picture buffer, (i) the third motion vector is determined to be equal to the first motion vector of the co-located block, (ii) the first motion vector of the current block is determined to be equal to the third motion vector, and (iii) the second motion vector of the decoding target block is determined to be a value of 0, and wherein, in the case where the first reference picture of the co-located block is stored in a short-term picture buffer and the second reference picture of the co-located block is stored in a long-term picture buffer, (i) the third motion vector is determined to be equal to the first motion vector of the co-located block, and (ii) the first and second motion vectors of the decoding target block are calculated by scaling the third motion vector based on a difference between display order information of the first reference picture of the decoding target block, display order information of the second reference picture of the decoding target block, and display order information of the decoding target picture including the decoding target block.

Metadata:
- Claim Count in Document: 7.0
- Percentile: 96.0
- Lexical Diversity: 1.625
- Patent Class: 375.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: True
- Related Applications: ['15640800', '16119337', '15640824', '15338830', '14969627']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.5923534144803625
- 35 USC 102 Novelty (BERT): 0.637215684897274
- Combined Prediction Score: 0.5968396415220537
- Mean Citation Score: 587.249828
- Max Citation Score: 591.6306
- Similarity Product: 575.1217198227881

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test