Laplacian Mixture Model(LMM) based frame-layer rate control method for H.264/AVC high-definition video coding

Accurate statistical distribution for estimating the transformed residues is greatly important for us to analyze the rate-distortion behavior of video encoders. However, the previous work pays more attention to those sequences of low-resolution. In this paper, we address the statistical characteristics of DCT coefficients of high-definition videos coded by H.264/AVC. The contribution of this paper is threefold: First, Laplacian Mixture Model (LMM) is proposed to model the residues instead of using Laplacian or Cauchy distributions; the corresponding new rate-distortion model based on LMM is presented next; based on this new rate-distortion model, one frame-layer rate control algorithm is developed. Experimental results showed that the proposed rate control method achieves an improvement of PSNR up to 0.52dB with less visual quality variation compared to JM 11.0.

[1]  Tihao Chiang,et al.  A new rate control scheme using quadratic rate distortion model , 1996, Proceedings of 3rd IEEE International Conference on Image Processing.

[2]  A.N. Netravali,et al.  Picture coding: A review , 1980, Proceedings of the IEEE.

[3]  Jerry D. Gibson,et al.  Distributions of the Two-Dimensional DCT Coefficients for Images , 1983, IEEE Trans. Commun..

[4]  Hocine Cherifi,et al.  On the distribution of the DCT coefficients , 1994, Proceedings of ICASSP '94. IEEE International Conference on Acoustics, Speech and Signal Processing.

[5]  Joseph W. Goodman,et al.  A mathematical analysis of the DCT coefficient distributions for images , 2000, IEEE Trans. Image Process..

[6]  Lawrence A. Rowe,et al.  DCT coefficient distributions , 1996, Electronic Imaging.

[7]  Yücel Altunbasak,et al.  Frame bit allocation for the H.264/AVC video coder via Cauchy-density-based rate and distortion models , 2005, IEEE Transactions on Circuits and Systems for Video Technology.