[1]
MITCHELL J L, PENNEBAKER W B, FOGG C E,et al. MPEG Vedio: Compression standard[M]. New York:Chapman and Hall, 1996:171-333.
[2]
ISO/IEC JTC1/SC29/WG11 N2725. MPEG-4 Overview[EB/OL].[2012-03-01]. http://mpeg.chiariglione.org/standards/mpeg-4/mpeg-4.htm.
[3]
ITU-T Recommendation H263, Video Coding for Low Bit Rate Communication[S].
[4]
ARPS R B, TRUONG T K. Comparison of international standards for lossless still image compression[J]. Proceedings of the IEEE, 1994, 82(6):889-899.
[5]
ISO/IEC JTC 1/SC 29/WG 1 FCD 14495. Lossless and near-lossless coding of continuous tone still images[EB/OL].[2012-03-01].www.hpl.hp.com/research/papers/seroussiIEEE.pdf.
[6]
ADAMS M D, KOSSENTINI F. Reversible integer-to-interger wavelet transforms for image compression: Performance evalutation and analysis[J]. IEEE Transactions on Image Processing, 2000, 9(6):1010-1024.
[7]
WU X, MEMON N. Context-based, adaptive, lossless image coding[J]. IEEE Transactions on Communications,1997,45(4):437-444.
[8]
MENO N, WU XIAOLIN. Recent developments in context-based predictive techniques for lossless image compression[J]. The Computer Journal, 1997, 40(2/3):127-136.
[9]
BHASKARAN V, KONSTANTINIDES K. Image and video compression standards: Algorithms and architectures[M]. Norwell:Kluwer Academic Publishers,1997:15-195.
[10]
CAROTTI E S G, de MARTIN J C, MEO A R. Backward-adaptive lossless compression of video sequences[C]// 2002 IEEE International Conference on Acoustics, Speech, and Signal Processing. [S.l.]:IEEE,2002: 3417-3420.
[11]
张明峰,胡佳,张立明. 基于时空自适应预测的无损视频压缩[J]. 计算机工程与科学, 2004,26(10):49-52.
[12]
ZEDEH L A. fuzzy sets[J]. Information and Control,1965,8(3):338-353.
[13]
KLIR G J, CLAIR U H S, YUAN B. Fuzzy set theory foundations and applications[M]. New Jersey: Prentice Hall,1997.
[14]
GOLOMB S. Run-length encodings (Corresp)[J]. IEEE Transaction on Information Theory, 1966,12(3): 399-401. |