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28 December 2000 Nonlinear motion-compensated interpolation for low-bit-rate video
Shan Liu, JongWon Kim, C.-C. Jay Kuo
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Proceedings Volume 4115, Applications of Digital Image Processing XXIII; (2000) https://doi.org/10.1117/12.411544
Event: International Symposium on Optical Science and Technology, 2000, San Diego, CA, United States
Abstract
By augmenting the ITU-T H.263 standard bit stream with supplementary motion vectors for to-be-interpolated frames, a new deformable block-based fast motion-compensated frame interpolation (DB-FMCI) scheme is presented. Unlike other motion-compensated interpolation methods, which assume a constant motion velocity between two reference P frames, the proposed scheme takes into account the non-linearity of motion to achieve a better interpolation result. The supplementary motion information for the so-called M frame (motion frame) is defined, which consists of compressed residues of linear and non-linear motion vectors. The non-linear motion vectors of skipped frames are used at the decoder to determine the 6- parameter affine-based DB-FMCI. Experimental results show that the proposed non-linear enhancement scheme can achieve a higher PSNR value and better visual quality in comparison with traditional methods based only on the linear motion assumption.
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Shan Liu, JongWon Kim, and C.-C. Jay Kuo "Nonlinear motion-compensated interpolation for low-bit-rate video", Proc. SPIE 4115, Applications of Digital Image Processing XXIII, (28 December 2000); https://doi.org/10.1117/12.411544
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KEYWORDS
Computer programming
Video
Motion estimation
Visualization
Error analysis
Head
Low bit rate video
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