Highly efficient predictive zonal algorithms for fast block-matching motion estimation
Motion estimation (ME) is an important part of any video encoding system since it could significantly affect the output quality of an encoded sequence. Unfortunately, this feature requires a significant part of the encoding time especially when using the straightforward full search (FS) algorithm. W...
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| Veröffentlicht in: | IEEE transactions on circuits and systems for video technology 2002-10, Vol.12 (10), p.934-947 |
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| container_title | IEEE transactions on circuits and systems for video technology |
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| creator | Tourapis, A.M. Au, O.C. Liou, M.L. |
| description | Motion estimation (ME) is an important part of any video encoding system since it could significantly affect the output quality of an encoded sequence. Unfortunately, this feature requires a significant part of the encoding time especially when using the straightforward full search (FS) algorithm. We propose two techniques, the generalized motion vector (MV) predictor and the adaptive threshold calculation, that can be used to significantly improve the performance of many existing fast ME algorithms. In particular, we apply them to create two new algorithms, named advanced predictive diamond zonal search and predictive MV field adaptive search technique, respectively, which can considerably reduce, if not essentially remove, the computational cost of ME at the encoder, while at the same time give similar, and in many cases better, visual quality with the brute force full search algorithm. The proposed algorithms mainly rely upon very robust and reliable predictive techniques and early termination criteria with parameters adapted to the local characteristics combined with the zonal based patterns. Our experiments verify the considerable superiority of the proposed algorithms versus the performance of possibly all other known fast algorithms, and FS. |
| doi_str_mv | 10.1109/TCSVT.2002.804894 |
| format | Article |
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Unfortunately, this feature requires a significant part of the encoding time especially when using the straightforward full search (FS) algorithm. We propose two techniques, the generalized motion vector (MV) predictor and the adaptive threshold calculation, that can be used to significantly improve the performance of many existing fast ME algorithms. In particular, we apply them to create two new algorithms, named advanced predictive diamond zonal search and predictive MV field adaptive search technique, respectively, which can considerably reduce, if not essentially remove, the computational cost of ME at the encoder, while at the same time give similar, and in many cases better, visual quality with the brute force full search algorithm. The proposed algorithms mainly rely upon very robust and reliable predictive techniques and early termination criteria with parameters adapted to the local characteristics combined with the zonal based patterns. 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| subjects | Adaptive search techniques Algorithms Applied sciences Coding, codes Computational efficiency Encoders Encoding Exact sciences and technology Gold Image processing Information, signal and communications theory Mathematical analysis Motion estimation Prediction algorithms Redundancy Robustness Searching Signal and communications theory Signal processing Studies Telecommunications and information theory Transform coding Video coding Video sequences Visual |
| title | Highly efficient predictive zonal algorithms for fast block-matching motion estimation |
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