ITU Telecommunication. Video coding for low bit rate eommunieation[S]. [S. l.] : ITU-T Recommendation H. 263, 1998:22.
[2]
Al-Shaykh O K, Miloslavsky E, Nomura T, et al. Video compression using matching pursuits [J]. IEEE Transactions on Circuits and System for Video Technology, 1999,9(1) :123 - 143.
[3]
Lin J L, Hwang W L, Pei S C. SNR scalability based on bitplane coding of matching pursuit atoms at low bit rates: fine-grained and two-layer[J].IEEE Trans on Circuits and Systems for Video Tech, 2005, 15 (1): 3-14.
[4]
Mallat S, Zhang Z. Matching pursuits with time-frequency dictionaries [J]. IEEE Transactions on Signal Processing, 1993,41(12):3397 - 3415.
Banham M, Brailean J. A selective update approach to matching pursuits video coding[J]. IEEE Transactions on Circuits and Systems for Video Technology, 1997,7 (1) :119 - 129.
[7]
Tran T D, Safranek R. A locally adaptive perceptual masking threshold model for image coding [C]//Proceedings of International Conference on Acoustics, Speech, and Signal Processing. [S. l.] : IEEE Press, 1996:1882 - 1886.
[8]
Wolf S, Webster A, Subjective and objective measures of scene criticality[C] // Proceedings of ITU Meeting on Subjective and Objective Audiovisual Quality Assessment Methods. Turin: [s. n.], 1997,10.
[9]
Marichal X, Villegas P. Objective evaluation of segmentation masks in video sequences [C]//Proceedings of 10th European Signal Processing Conference. Tampere, Finland: [s. n.], 1999.2193-2198.
