Title :
Computation-constrained fast MPEG-2 encoding
Author :
Kossentini, Faouzi ; Lee, Yuen-Wen
Author_Institution :
Dept. of Electr. Eng., British Columbia Univ., Vancouver, BC, Canada
Abstract :
We introduce a computation-constrained predictive motion estimation algorithm for fast Motion Picture Expert Group-2 (MPEG-2) encoding. Motion estimation is restricted to a relatively small search area whose center is a two-dimensional (2D) median predicted motion vector. The number of computations is further reduced by incorporating explicitly a computational constraint during the estimation process. Experimental results show that the median prediction as well as the dynamic nature of the implementation lead to a dramatic increase in motion estimation speed for only a small loss in compression performance. A unique feature of our algorithm is that the reconstruction quality of the resulting MPEG-2 coder is proportional to the computer´s processing power, providing much needed flexibility in many MPEG-2 software applications.
Keywords :
code standards; computational complexity; data compression; image reconstruction; motion estimation; prediction theory; telecommunication standards; video coding; 2D median predicted motion vector; MPEG-2 coder; MPEG-2 software applications; Motion Picture Expert Group-2; compression performance; computation constrained encoding; computational constraint; computations reduction; computer processing power; estimation process; experimental results; fast MPEG-2 encoding; motion compensation; predictive motion estimation algorithm; reconstruction quality; search area; Distortion measurement; Encoding; Motion estimation; Motion pictures; PSNR; Partitioning algorithms; Performance loss; Prediction algorithms; Software algorithms; Transform coding;
Journal_Title :
Signal Processing Letters, IEEE
