Title :
Scalable video codec by noncausal prediction, cascaded vector quantization, and conditional replenishment
Author :
Asif, Amir ; Kouras, Maria
Author_Institution :
Dept. of Comput. Sci. & Eng., York Univ., Toronto, Ont., Canada
Abstract :
In this paper, we describe a bandwidth adaptable, low bit-rate video coding scheme, referred to as scalable, noncausal prediction with vector quantization and conditional replenishment (SNP/VQR). Practical implementations of SNP/VQR are derived by exploiting the convergence and block banded properties of the state matrices. The resulting subblock SNP/VQR reduces the computational complexity and the storage requirements of the direct SNP/VQR by two orders of the linear magnitude of the frame dimensions. The subblock SNP/VQR is also capable of offering different quality of services (QoS) in the spatial and temporal domains. In the experiments, the block SNP/VQR compares favorably with the standard video codecs including the International Standards Organization (ISO) proposed MPEG4 and the International Telecommunication Union (ITU) proposed H.263, especially at low bit rates.
Keywords :
block codes; computational complexity; multimedia communication; quality of service; vector quantisation; video codecs; video coding; block banded property; computational complexity; conditional replenishment; low bit-rate video coding; multimedia communication; noncausal prediction; quality of service; spatial domain; temporal domain; vector quantization; video codec; Bandwidth; Code standards; Computational complexity; Convergence; ISO standards; Quality of service; Standards organizations; Vector quantization; Video codecs; Video coding; Conditional replenishment; Gauss Markov random process; noncausal prediction; quality of service; scalable video compression; vector quantization;
Journal_Title :
Multimedia, IEEE Transactions on
DOI :
10.1109/TMM.2005.861294
