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一种形状自适应的嵌入式小波图像编码器

鲍永生 王琪 郭雷

鲍永生, 王琪, 郭雷等 . 一种形状自适应的嵌入式小波图像编码器[J]. 北京航空航天大学学报, 2003, 29(12): 1115-1118.
引用本文: 鲍永生, 王琪, 郭雷等 . 一种形状自适应的嵌入式小波图像编码器[J]. 北京航空航天大学学报, 2003, 29(12): 1115-1118.
Bao Yongsheng, Wang Qi, Guo Leiet al. Shape adaptive embedded wavelet image code[J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(12): 1115-1118. (in Chinese)
Citation: Bao Yongsheng, Wang Qi, Guo Leiet al. Shape adaptive embedded wavelet image code[J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(12): 1115-1118. (in Chinese)

一种形状自适应的嵌入式小波图像编码器

详细信息
    作者简介:

    鲍永生(1966-),男,河南信阳人,博士生, lguo@nwpu.edu.cn.

  • 中图分类号: TP 273

Shape adaptive embedded wavelet image code

  • 摘要: 形状自适应的小波变换编码可以编码任意形状的物体,不但保持了物体的纹理信息,而且编码不会带来不必要的冗余.但是当对任意形状的物体进行小波变换时,会由于变换序列的长度、下采样位置的不同而带来一些变化.文章利用懒小波对任意形状的掩膜进行变换,并且采用9-7滤波器的提升小波形式,很好地解决了这些问题.最终通过修正的形状自适应的SPIHT算法,对任意形状物体的内部纹理进行编码压缩.与原始算法相比,性能提高了大约0.2 dB.

     

  • [1] ISO/IEC CD 14496,Information technology-coding of audio-visual objects[S], 1999 [2] Chang S F, Messerschmitt D G. Transform coding of arbitrarily-shaped image segments .In:Proc 1st ACM int Conf Multimedia .Anaheim,1993.83~90 [3] Gilge M, Engelhardt T, Mehaln R. Coding of arbitrarily shaped image segments based on a generalized orthogonal transform [J]. Signal Process:Image Comm,1989,1(10):153~180 [4] Sikora T, Makai B. Low complex shaped-adaptive DCT for generic and functional coding of segment video .In:Proc Workshop Image Anal Image Coding .Berlin, 1993 [5] Sikora T,Makai B.Shape-adaptive DCT for generic of video[J]. IEEE Trans Circuits and Systems for Video Tech, 1995,5(2):59~62 [6] Li S, Li W. Shape-adaptive discrete wavelet transforms for arbitrarily shaped visual object coding [J]. IEEE Trans Circuits and Systems for Video Tech, 2000,10(8):725~743. [7] Shapiro J M. Embedded image coding using zerotrees of wavelet coefficients [J]. IEEE Trans on Signal Processing, 1993, 41(12):3445~3462 [8] Said A, Pearlman W A. A new, fast and efficient image codec based on set partitioning in hierarchical trees [J]. IEEE Trans on Circuits Syst & Video Technol, 1996, 6(3):243-249 [9] Kim B J, Xiong Z, Pearlman W A. Low bit-rate scalable video coding with 3D set partitioning in hierarchical trees (3D SPIHT)[J]. IEEE Trans Circuits and Systems for Video Tech, 2000,10(11):1365~1374 [10] Minami G, Xiong Z, Wang A,et al. 3-D wavelet coding of video with arbitrary regions of support . In:Asilomar Conference on Signals, Systems, and Computers , 1999 [11] Sweldens W. The lifting scheme:A custom-design construction of biorthogonal wavelets . http://cm.bell-labs.com/who/wim/papers/lift1.pdf [12] Daubechies I, Sweldens W. Factoring wavelet transforms into lifting steps . http://cm.bell-labs.com/who/wim/papers/factor.pdf [13] Cohen A. Biorthogonal bases of compactly supported wavelets [J]. Comm on Pure and Appl Math, 1992, 45:486~586
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出版历程
  • 收稿日期:  2003-06-25
  • 网络出版日期:  2003-12-31

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