FIELD: physics.
SUBSTANCE: invention relates to encoding movement information. Technical result is achieved by that unit (162) for creating a candidate list for information on movement with fusion generates a candidate list for information on movement with fusion using candidates for information on movement with fusion in space and time. Unit (165) for adding second candidates for information on movement with fusion generates a new candidate for information on movement with fusion, which, when the said reference index indicates the available reference frame, includes this reference index, and in the case where said reference index does not indicate an available reference frame includes a predetermined reference index with a motion vector having a predetermined size and direction, and adds this new candidate for information on movement with fusion to the list of candidates for information on movement with fusion. Unit (141) selection of information on movement with fusion selects one candidate for information on movement with fusion from the list of candidates for information on movement with fusion with added new candidate for information on movement with fusion and extracts selected candidate for information on movement with fusion as information on movement of the prediction unit which is an encoding object.
EFFECT: reduced size of information on movement and high efficiency of encoding.
4 cl, 50 dwg
| Title |
Year |
Author |
Number |
| DEVICE AND METHOD FOR DECODING A MOVING IMAGE, ADAPTED TO EXTRACT INFORMATION ON MOVEMENT |
2019 |
- Takehara Hideki
- Fukushima Shigery
- Nakamura Hiroya
|
RU2699388C1 |
| MOVING IMAGE ENCODING DEVICE, MOVING IMAGE ENCODING METHOD AND MOVING IMAGE ENCODING PROGRAM, AS WELL AS MOVING IMAGE DECODING DEVICE, MOVING IMAGE DECODING METHOD AND MOVING IMAGE DECODING PROGRAM |
2013 |
- Takekhara Khideki
- Fukusima Sigeru
- Nakamura Khirojya
|
RU2594985C2 |
| MOVING IMAGE DECODING DEVICE AND MOVING IMAGE DECODING METHOD |
2019 |
- Takehara Hideki
- Nakamura Hiroya
- Fukushima Shigeru
|
RU2697386C1 |
| MOVING IMAGE DECODING DEVICE AND MOVING IMAGE DECODING METHOD |
2019 |
- Takehara Hideki
- Nakamura Hiroya
- Fukushima Shigeru
|
RU2697806C1 |
| MOVING IMAGE DECODING DEVICE AND MOVING IMAGE DECODING METHOD |
2019 |
- Takehara Hideki
- Nakamura Hiroya
- Fukushima Shigeru
|
RU2697927C1 |
| MOVING IMAGE DECODING DEVICE AND MOVING IMAGE DECODING METHOD |
2018 |
- Takekhara Khideki
- Nakamura Khirojya
- Fukusima Sigeru
|
RU2687218C1 |
| MOVING IMAGE ENCODING DEVICE, MOVING IMAGE ENCODING METHOD AND MOVING IMAGE ENCODING PROGRAM, AS WELL AS MOVING IMAGE DECODING DEVICE, MOVING IMAGE DECODING METHOD AND MOVING IMAGE DECODING PROGRAM |
2012 |
- Takehara Hideki
- Nakamura Hiroya
- Fukushima Shigeru
|
RU2606399C2 |
| DEVICE AND METHOD FOR DECODING A MOVING IMAGE, LONG-TERM COMPUTER RECORDED MEDIA RECORDING TO STORAGE A PROGRAM OF DECODING A MOVING IMAGE |
2013 |
- Takehara Hideki
- Fukushima Shigery
- Nakamura Hiroya
|
RU2629359C1 |
| DEVICE AND METHOD FOR DECODING A MOVING IMAGE, LONG-TERM COMPUTER READABLE RECORDED MEDIUM FOR STORING A PROGRAM FOR DECODING THE MOVING IMAGE |
2017 |
- Takehara Hideki
- Fukushima Shigery
- Nakamura Hiroya
|
RU2654516C1 |
| MOVING PICTURE DECODING DEVICE, MOVING PICTURE DECODING METHOD AND MOVING PICTURE DECODING PROGRAM |
2012 |
- Takehara Hideki
- Nakamura Hiroya
- Fukushima Shigeru
|
RU2628185C9 |
