Title :
Computation-scalable algorithm for scalable video coding
Author :
Te-Heng Wang ; Mei-Juan Chen ; Ming-Chieh Chi ; Shu-Fen Huang ; Chia-Hung Yeh
Author_Institution :
Dept. of Electr. Eng., Nat. Dong-Hwa Univ., Hualien, Taiwan
fDate :
8/1/2011 12:00:00 AM
Abstract :
This paper presents a strategy that efficiently allocates the limited resource and still maintains the coding performance for the spatial scalability of H.264/SVC. An integrated computation-scalable algorithm is proposed on the basis of priority-based mode decision (PBMD) and activity-based motion estimation (ABME). The rate-distortion cost (RD-cost) of base layer is utilized as the priority to decide the mode in the enhancement layer, and the motion vector difference (MVD) in the base layer is employed to determine the search range as well. Through the proposed approach, computation complexity of the enhancement layer could be reduced efficiently and well allocated. A fast algorithm with early termination mechanism is also proposed in this paper. Experimental results demonstrate that the various rate-distortion and time-saving performances with computation scalability are realized.
Keywords :
computational complexity; image enhancement; motion estimation; video coding; ABME; H.264-SVC; MVD; PBMD; RD-cost; activity-based motion estimation; computation complexity; computation scalability; early-termination mechanism; enhancement layer; integrated computation-scalable algorithm; motion vector difference; priority-based mode decision; rate-distortion cost; rate-distortion performance; scalable video coding; search range; spatial scalability; Algorithm design and analysis; Correlation; Encoding; Motion estimation; PSNR; Scalability; Static VAr compensators; Scalable video coding; computation scalability; mode decision; motion estimation;
Journal_Title :
Consumer Electronics, IEEE Transactions on
DOI :
10.1109/TCE.2011.6018874
