1.College of Computer and Information Technology, Liaoning Normal University, Dalian 116029 2.Key Laboratory of Intelligent Computing and Information Processing of Ministry of Education, Xiangtan University, Xiangtan 411105
Abstract:Video coding based on 3D wavelet transform draws more and more attention. However, it is necessary to improve its coding efficiency. Based on the analysis of the 3D wavelet transform coefficients distribution characteristics of video and unavailability of zerotree coding in temporal high-frequency frames, the zerocube model of temporal high-frequency frames and the 3D wavelet video coding algorithm based on octcube split are proposed in this paper. In this algorithm, low-frequency subbands and high-frequency subbands obtained by 3D wavelet transform are processed respectively, the zerotree structure of set partitioning in Hierarchical tree (SPIHT) is adopted for the former, the zerocube structure of octcube split is utilized for the latter. Since the 3D transform wavelet coefficients are organized together by zerocube structure, the synchronous information of lonely zero coding is reduced. Meanwhile, a coefficient is coded only when it is significant. Thus, to scan insignificant coefficients repeatedly is avoided. Experimental results show that for various standard test video sequences, the proposed algorithm has good reconstruction quality.
王相海,付明哲,宋传鸣. 三维小波八叉体分裂视频编码算法*[J]. 模式识别与人工智能, 2015, 28(8): 702-709.
WANG Xiang-Hai, FU Ming-Zhe, SONG Chuan-Ming. 3D Wavelet Octcube Split Video Coding Algorithm. , 2015, 28(8): 702-709.
[1] Kim B J, Xiong Z X, Pearlman W A. Low Bit Rate, Scalable Video Coding with 3-D Set Partitioning in Hierarchical Trees (3-D SPIHT). IEEE Trans on Circuits and Systems for Video Technology, 2000, 10(8): 1374-1387 [2] Hsiang S T, Woods J W. Embedded Video Coding Using Invertible Motion Compensated 3-D Subband/Wavelet Filter Bank. Signal Processing: Image Communication, 2001, 16(8): 705-724 [3] Xiong R Q, Ji X Y, Zhang D D, et al. Vidwav Wavelet Video Co-ding Specifications. ISO/IEC/JEC1/SC29/WG11/M12339.Poznan, Poland, 2005 [4] He C, Dong J Y, Zheng Y F, et al. Optimal 3-D Coefficient Tree Structure for 3-D Wavelet Video Coding. IEEE Trans on Circuits and Systems for Video Technology, 2003, 13(10): 961-972 [5] Zhang L, Wang D M, Vincent A. Decoupled 3D Zerotree Structure for Wavelet-Based Video Coding. IEEE Trans on Broadcasting, 2008, 54(3): 430-436 [6] Song C M. Research on Scalable Video Coding Based on Multiscale Analysis. Ph.D Dissertation. Nanjing, China: Nanjing University, 2010 (in Chinese) (宋传鸣.基于多尺度分析的视频可分级编码技术研究.博士学位论文.南京:南京大学, 2010) [7] Ohm J R. Advances in Scalable Video Coding. Proceedings of the IEEE, 2005, 93(1): 42-56 [8] Xu J Z, Xiong Z X, Li S P, et al. Three-Dimensional Embedded Subband Coding with Optimized Truncation (3-D ESCOT). Applied and Computational Harmonic Analysis, 2001, 10(3): 290-315 [9] Moinuddin A A, Khan E, Ghanbari M. The Impact of Tree Structures on the Performance of Zerotree-Based Wavelet Video Codecs. Signal Processing: Image Communication, 2010, 25(3): 179-195 [10] Taubman D. High Performance Scalable Image Compression with EBCOT. IEEE Trans on Image Processing, 2000, 9(7): 1158-1170 [11] Liu D, Wang X H. Research on Prediction Error Information Co-ding. Computer Engineering and Applications, 2007, 43(7): 45-48 (in Chinese) (刘 丹,王相海.视频帧差图像编码研究.计算机工程与应用, 2007, 43(7): 45-48) [12] Shapiro J. Embedded Image Coding Using Zerotrees of Wavelet Coe-fficients. IEEE Trans on Signal Processing, 1993, 41(12): 3445-3462 [13] Cho Y S, Pearlman W A. Quantifying the Coding Performance of Zerotrees of Wavelet Coefficients: Degree-k Zerotree. IEEE Trans on Signal Processing, 2007, 55(6): 2425-2431
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