Performance evaluation on H.26L-based motion compensation with segmented multiple reference frames

We propose a motion compensation (MC) scheme that outperforms the MC technique specified in the emerging ITU-T coding standard, H.26L. The proposed MC scheme is based on a motion boundary model that uses two different time/frame references for arbitrarily bisected regions within each macroblock. The motion boundary model increases MC efficiency especially for the incoherent moving regions caused by the intersection between foreground and background objects; the current H.26L's "motion boundary insensitive MC", on the other hand, allows only one reference frame for all segments within a macroblock to be predicted. Experiments show that the proposed MC scheme can reduce the bit rate by up to 5.9% compared to the current H.26L, without increase of decoding complexity.

[1]  G. Bjontegaard,et al.  Calculation of Average PSNR Differences between RD-curves , 2001 .

[2]  Allen Gersho,et al.  Vector quantization and signal compression , 1991, The Kluwer international series in engineering and computer science.

[3]  Markus Flierl,et al.  MULTIHYPOTHESIS PICTURES FOR H.26L , 2001 .

[4]  Gary J. Sullivan,et al.  Rate-distortion optimization for video compression , 1998, IEEE Signal Process. Mag..

[5]  Tokumichi Murakami,et al.  Very low bit-rate video coding with block partitioning and adaptive selection of two time-differential frame memories , 1997, IEEE Trans. Circuits Syst. Video Technol..

[6]  R. L. Baker,et al.  Rate-distortion optimized motion compensation for video compression using fixed or variable size blocks , 1991, IEEE Global Telecommunications Conference GLOBECOM '91: Countdown to the New Millennium. Conference Record.