Title :
Parametric Interpolation Filter for HD Video Coding
Author :
Dong, Jie ; Ngan, King Ngi
Author_Institution :
Dept. of Electron. Eng., Chinese Univ. of Hong Kong, Shatin, China
Abstract :
Recently, adaptive interpolation filter (AIF) for motion-compensated prediction (MCP) has received increasing attention. This letter studies the existing AIF techniques, and points out that making tradeoff between the two conflicting aspects: the accuracy of coefficients and the size of side information, is the major obstacle to improving the performance of the AIF techniques that code the filter coefficients individually. To overcome this obstacle, parametric interpolation filter (PIF) is proposed for MCP, which represents interpolation filters by a function determined by five parameters instead of by individual coefficients. The function is designed based on the fact that high frequency energies of HD video source are mainly distributed along the vertical and horizontal directions; the parameters are calculated to minimize the energy of prediction error. The experimental results show that PIF outperforms the existing AIF techniques and approaches the efficiency of the optimal filter.
Keywords :
adaptive filters; error statistics; interpolation; motion compensation; video coding; AIF techniques; HD video coding; HD video source; MCP; PIF; accuracy of coefficients; adaptive interpolation filter; filter coefficients; high frequency energy; horizontal directions; motion-compensated prediction; optimal filter; parametric interpolation filter; prediction error; side information; vertical directions; Automatic voltage control; Complexity theory; Encoding; High definition video; Interpolation; Prediction algorithms; Adaptive filter; H.264/AVC; interpolation; motion-compensated prediction; video coding;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2010.2087530
