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Volume 19 Issue 6
Nov.  1997
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Zhang Xudong, Wang Desheng, Peng Yingning. VERY LOW BIT-RATE VIDEO CODING ALGORITHM AND STANDARDIZATION[J]. Journal of Electronics & Information Technology, 1997, 19(6): 836-842.
Citation: Zhang Xudong, Wang Desheng, Peng Yingning. VERY LOW BIT-RATE VIDEO CODING ALGORITHM AND STANDARDIZATION[J]. Journal of Electronics & Information Technology, 1997, 19(6): 836-842.

VERY LOW BIT-RATE VIDEO CODING ALGORITHM AND STANDARDIZATION

  • Received Date: 1996-04-02
  • Rev Recd Date: 1997-03-03
  • Publish Date: 1997-11-19
  • This paper reports on current developments in the area of very low bit-rate video coding, including algorithms and standardization. The advances are summarized in several areas, among them motion compensation/transformation (MC/T)techniques, model-based video coding, fractal IFS coding, H.263 and MPEG4. The future developments are discussed.
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  • [1] Girod B. Motion-compensating prediction with fractional-pel accuracy[J]. IEEE Trans. on Comm.1993,41(4):604-612 [2] Bierling M. Displacement estimation by hierachical blockmatching. SPIE, 1988, 1001: 942-951. [3] Dufaux F, et al. Motion estimation techniques for digital TV[J].Pros. IEEE.1995, 83(6):858-875 [4] 李劲.高性能序列与静态图象压缩编码的研究:[博士论文].北京:清华大学电子工程系,1994. 5. [5] Katto J et al. A wavelet codes with overlapped motion compensation[J]. IEEE Trans. on CAS for Video Tech.1994, 4(3):328-338 [6] Ohta M, et al. Hybrid picture coding with wavelet transform and OMCP coding[J].IEEE Trans. on SP.1993, 41(12):3416-3424 [7] Naveen T, et al. Motion compensated multiresolution transmission[J].IEEE Trans on CAS for Video Tech.1994, 4(1):29-41 [8] Seferidis V. General approach to block matching motion estimation. Optical Engineering, 1993, 32(7): 1564-1474. [9] Qian D. A motion compensated subband coder for very low bit rate. Signal Processing: Image Comm., 1995, 7(4): 312-323. [10] Witten I H, et al. Arithmetic coding for data compression[J].Comm. of ACM.1987, 30(6):520-540 [11] Kim Y, et al. New tree structure with conditional height difference for wavelet transform image coding[J].Electron. Lett.1995, 31(2):90-91 [12] Sampson D G, et al. Wavelet vector quantization scheme for image sequence coding at 64Kbit/s[J].Electron. Lett.1995, 31(2):92-93 [13] Shapiro J M. Embeded image coding using zerotrees of wavelet coeffcients[J]. IEEE Trans. on SP.1993,41(12):3445-3462 [14] Kim S W, et al. Video coding with wavelet transform on the very low bit rate communication channel[J].SPIE.1994, 2187:309-320 [15] Antonini M, et al. Image coding using wavelet transform. IEEE Trans. on IP, 1992, 1(2): 205-220. [16] Brigger P, et al. Morphological shape reprentation for very low bit rate video coding[J]. Signal Processing: Image Comm.1995, 7(4-6):297-312 [17] Podilchuk C I, et al. Three-dimensional subband coding of video. IEEE Trans, on IP, 1995, 9(2): 125-139. [18] Goh K H, et al. New 3-D wavelet transform coding algorithm for image sequences[J].Electron. Lett.1993, 29(4):401-402 [19] Taubmain D, et al. Multirate 3-D subband coding of video. IEEE Trans. on IP, 1994, 3(5): 572-588. [20] Ngan K N, et al. Very low bit rate video coding using 3D subband approach[J].IEEE Trans. on CAS for Video Tech.1994, 4(3):309-316 [21] Ohm J R. Three-dimensional subband coding with motion compensation. IEEE Trans. on IP, 1994, 3(5): 559-571. [22] Park J R, et al. DWT and CVQ based image coding for a low bit rate[J].Electrion. Lett.1995, 31(10):781-782 [23] Jacquin A E. Image coding based on fractal theory of iterated contrastive image transformation. IEEE Trans. on IP, 1992, 1(1): 18-30. [24] Reusens E. Sequence coding based on the fractal theory of iterated transformation systems[J].SPIE.1993, 2094:132-140 [25] Hurtgen B, et al. Fractal approach to low rate video coding[J].SPIE.1993, 2094:120-131 [26] Li H, et al. 3D motion estimation for facial image coding. IEEE Trans. on PAMI, 1993, 15(7): 1385-1421. [27] Li H, et al. Image sequences coding at very low bit rates. IEEE Trans. on IP, 1994, 3(5): 589-609. [28] Pearson D E. Developments in model-based video coding[J].Proc. IEEE.1995, 83(6):892-905 [29] Musmann H G, et al. Object-oriented analysis-synthesis coding of moving image[J].Signal Processing: Image Comm.1989, 1(1):117-138 [30] 李海波.模型基图象编码.通信学报,1993, 14(2): 69-77. [31] Aizawa K, et al. Model-based analysis synthesis image coding system. Signal Processing: Image [32] Comm., 1989, 1(1): 139-152. [33] Gerken P. Object-based analysis-synthesis coding of image sequences. IEEE Trans. on CAS for [34] Video Tech., 1994, 4(3). [35] DRATE ITU-T Recommendation H.263. Video coding for narrow telecommunication channels. 5 July, 1995. [36] Schaphorst R, et al. Status of ITU and ISO/MPEG4 video coding standards at very low bit rates[J].SPIE.1994, 2187:280-289 [37] Reader C. MPEG4[J].Optical Engineering.1996, 35(1):104-108 [38] Modestino J W, et al. Combined source-channel coding of image[J]. IEEE Trans. on Comm.1981, 29(9):1261-1274 [39] Vaishampayan V A, et al. Optimal block cosine transform image coding for noisy channels. IEEE Trans. on Comm., 1990, 38(3): 687-696. [40] Musmann H G. A layered coding system for very low bit rate video coding[J].Signal Processing: Image Comm.1995, 7(4-6):267-278 [41] Jayant K, et al. Signal compression based on models of human perception[J].Proc. IEEE.1993, 81(10):1385-1421
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