Abstract
The fundamental motion model of the conventional block-based motion compensation in High Efficiency Video Coding (HEVC) is a translational motion model. However, in the real world, the motion of an object exists in the form of combining many kinds of motions. In Versatile Video Coding (VVC), a block-based 4-parameter and 6-parameter affine motion compensation (AMC) is being applied. In natural videos, in the majority of cases, a rigid object moves without any regularity rather than maintains the shape or transform with a certain rate. For this reason, the AMC still has a limit to compute complex motions. Therefore, more flexible motion model is desired for new video coding tool. In this paper, we design a perspective affine motion compensation (PAMC) method which can cope with more complex motions such as shear and shape distortion. The proposed PAMC utilizes perspective and affine motion model. The perspective motion model-based method uses four control point motion vectors (CPMVs) to give degree of freedom to all four corner vertices. Besides, the proposed algorithm is integrated into the AMC structure so that the existing affine mode and the proposed perspective mode can be executed adaptively. Because the block with the perspective motion model is a rectangle without specific feature, the proposed PAMC shows effective encoding performance for the test sequence containing irregular object distortions or dynamic rapid motions in particular. Our proposed algorithm is implemented on VTM 2.0. The experimental results show that the BD-rate reduction of the proposed technique can be achieved up to 0.45% and 0.30% on Y component for random access (RA) and low delay P (LDP) configurations, respectively.
Highlights
Video compression standard technologies are increasingly becoming more efficient and complex.With continuous development of display resolution and type along with enormous demand for high quality video contents, video coding plays a key role in display and content industries.After standardizing H.264/AVC [1] and H.265/High Efficiency Video Coding (HEVC) [2] successfully, Versatile Video Coding (VVC) [3]is being standardized by the Joint Video Exploration Team (JVET) of ITU-T Video Coding ExpertsGroup (VCEG) and ISO/IEC Moving Picture Experts Group (MPEG)
We propose a perspective affine motion compensation (PAMC) method which improve coding efficiency compared with the AMC method of VVC
We propose a perspective affine motion compensation (PAMC) method which improve coding efficiency compared with the existing AMC method of the VVC
Summary
Video compression standard technologies are increasingly becoming more efficient and complex. A translational motion model-based MC cannot address complex motions in natural videos such as rotation and zooming. Non-translational motion model-based studies have been presented in the early research on video coding. Even though different frames have the same object, if the depth or viewpoint information changes, the motion can not be completely estimated by affine transformation model For this reason, more flexible motion model is desired for new coding tool to raise the encoding quality. We propose a perspective affine motion compensation (PAMC) method which improve coding efficiency compared with the AMC method of VVC. The motion model for the AMC prediction method in the VVC is defined for three motions: translation, rotation and zooming. The motion compensation interpolation filters are used to generate the prediction block of each sub-block with derived motion vector
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