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联合信源信道编码方案 [6]
论文作者:www.51lunwen.org论文属性:学术文章 Scholarship Essay登出时间:2016-04-26编辑:lily点击率:13513
论文字数:3451论文编号:org201604221634068797语种:英语 English地区:西班牙价格:免费论文
摘要:本文首先给出多个链接文章对当前JSCC技术的情况进行简要介绍,然后对其基本概念、应用领域、应用方法等进行说明,并对部分代码的情况进行了分析。
xvi]]:
* Low-density parity check (LDPC) - allows six fundamental code rates: ½, 2/3A, 2/3B, 3/4A, 3/4B and 5/6
* Convolution Turbo Code (CTC) - allows fundamental code rate of 1/3 and additional code rates using puncturing: 2/3, ¾ and 5/6
* Convolutional Code (CC) - allows a mother code rate of ½ and additional rates using puncturing: 2/3, ¾ and 5/6
In most cases LDPC codes is preferred for channel coding in mobile WiMAX. Advantages of LDPC over CTC and CC codes are discussed in [80].
[i][ ] S. Zahir Azami, P. Duhamel, and O. Rioul. Joint source-channel coding: Panorama of methods. CNES Workshop on Data Compression, Toulouse, France, November 1996.
[ii][] M.J. Ruf, and J.W. Modestino, “Operational rate-distortion performance for joint source and channel coding of images,” IEEE Trans. on Image Processing, vol.8, no.3, pp. 305-320, 1999.
[iii][] J. Song, and K.J.R. Liu, “Robust progressive image transmission over OFDM systems using space-time block code,” IEEE Trans. on Multimedia, vol.4, no.3, pp. 394-406, 2002.
[iv][] R. Hamzaoui, V. Stankovic, and X. Zixiang, “Optimized error protection of scalable image bit streams [advances in joint source-channel coding for images],” IEEE Signal Processing Magazine, vol.22, no.6, pp. 91-107, 2005.
[v][] M.F. Sabir, H.R. Sheikh, R.W. Heath, Jr., and A.C. Bovik, “A joint source-channel distortion model for JPEG compressed images,” IEEE Trans. on Image Processing, vol.15, no.6, pp. 1349-1364, 2006.
[vi][] S. Zhao, Z. Xiong, and X. Wang, “Optimal resource allocation for wireless video over CDMA networks,” IEEE Trans. on Mobile Computing, vol.4, no.1, pp. 56-67, 2005.
[vii][] J. Wang, M. Venkatachalam, and Y. Fang, “System Architecture and Cross-Layer Optimization of Video Broadcast over WiMAX,” IEEE Journal on Selected Areas in Communications, vol.25, no.4, pp. 712-721, 2007.
[viii][] M. Stoufs, A. Munteanu, J. Cornelis, and P. Schelkens, “Scalable Joint Source-Channel Coding for the Scalable Extension of H.264/AVC,” IEEE Trans. on Circuits and Systems for Video Technology, vol.18, no.12, pp. 1657-1670, 2008.
[ix][] F. Zhai, Y. Eisenberg, T.N. Pappas, R. Berry, and A.K. Katsaggelos, “Rate-distortion optimized hybrid error control for real-time packetized video transmission,” IEEE Trans. on Image Processing, vol.15, no.1, pp. 40-53, 2006.
[x][] A.J Goldsmith, and M. Effros, “Joint design of fixed-rate source codes and multiresolution channel codes,” IEEE Trans. on Communications, vol.46, no.10, pp. 1301-1312, 1998.
[xi][] P.Y. Yip, A. Malcolm, W.A.C. Fernando, K.K. Loo, and H.K. Arachchi, “Joint source and channel coding for H.264 compliant stereoscopic video transmission,” Canadian Conf. on Electrical and Computer Engineering, pp. 188-191, 2005.
[xii][] The Bell System Technical Journal,Vol. 27, pp. 379-423, 623-656, July, October, 1948.
[xiii][] ITU-T, “Video codec for audiovisual services at px64 kbits/s,” ITU-T Rec. H.261 v1: Nov 1990, v2: Mar. 1993.
[xiv][] ISO/IEC JTC 1, “Coding of moving pictures and associated audio for digital storage media at up to about 1.5 Mbit/s - Part 2: Video,” ISO/IEC 11172 (MPEG-1), Nov. 1993.
[xv][] ITU-T and ISO/IEC JTC 1, “Generic coding of moving pictures and a本论文由英语论文网提供整理,提供论文代写,英语论文代写,代写论文,代写英语论文,代写留学生论文,代写英文论文,留学生论文代写相关核心关键词搜索。
* Low-density parity check (LDPC) - allows six fundamental code rates: ½, 2/3A, 2/3B, 3/4A, 3/4B and 5/6
* Convolution Turbo Code (CTC) - allows fundamental code rate of 1/3 and additional code rates using puncturing: 2/3, ¾ and 5/6
* Convolutional Code (CC) - allows a mother code rate of ½ and additional rates using puncturing: 2/3, ¾ and 5/6
In most cases LDPC codes is preferred for channel coding in mobile WiMAX. Advantages of LDPC over CTC and CC codes are discussed in [80].
[i][ ] S. Zahir Azami, P. Duhamel, and O. Rioul. Joint source-channel coding: Panorama of methods. CNES Workshop on Data Compression, Toulouse, France, November 1996.
[ii][] M.J. Ruf, and J.W. Modestino, “Operational rate-distortion performance for joint source and channel coding of images,” IEEE Trans. on Image Processing, vol.8, no.3, pp. 305-320, 1999.
[iii][] J. Song, and K.J.R. Liu, “Robust progressive image transmission over OFDM systems using space-time block code,” IEEE Trans. on Multimedia, vol.4, no.3, pp. 394-406, 2002.
[iv][] R. Hamzaoui, V. Stankovic, and X. Zixiang, “Optimized error protection of scalable image bit streams [advances in joint source-channel coding for images],” IEEE Signal Processing Magazine, vol.22, no.6, pp. 91-107, 2005.
[v][] M.F. Sabir, H.R. Sheikh, R.W. Heath, Jr., and A.C. Bovik, “A joint source-channel distortion model for JPEG compressed images,” IEEE Trans. on Image Processing, vol.15, no.6, pp. 1349-1364, 2006.
[vi][] S. Zhao, Z. Xiong, and X. Wang, “Optimal resource allocation for wireless video over CDMA networks,” IEEE Trans. on Mobile Computing, vol.4, no.1, pp. 56-67, 2005.
[vii][] J. Wang, M. Venkatachalam, and Y. Fang, “System Architecture and Cross-Layer Optimization of Video Broadcast over WiMAX,” IEEE Journal on Selected Areas in Communications, vol.25, no.4, pp. 712-721, 2007.
[viii][] M. Stoufs, A. Munteanu, J. Cornelis, and P. Schelkens, “Scalable Joint Source-Channel Coding for the Scalable Extension of H.264/AVC,” IEEE Trans. on Circuits and Systems for Video Technology, vol.18, no.12, pp. 1657-1670, 2008.
[ix][] F. Zhai, Y. Eisenberg, T.N. Pappas, R. Berry, and A.K. Katsaggelos, “Rate-distortion optimized hybrid error control for real-time packetized video transmission,” IEEE Trans. on Image Processing, vol.15, no.1, pp. 40-53, 2006.
[x][] A.J Goldsmith, and M. Effros, “Joint design of fixed-rate source codes and multiresolution channel codes,” IEEE Trans. on Communications, vol.46, no.10, pp. 1301-1312, 1998.
[xi][] P.Y. Yip, A. Malcolm, W.A.C. Fernando, K.K. Loo, and H.K. Arachchi, “Joint source and channel coding for H.264 compliant stereoscopic video transmission,” Canadian Conf. on Electrical and Computer Engineering, pp. 188-191, 2005.
[xii][] The Bell System Technical Journal,Vol. 27, pp. 379-423, 623-656, July, October, 1948.
[xiii][] ITU-T, “Video codec for audiovisual services at px64 kbits/s,” ITU-T Rec. H.261 v1: Nov 1990, v2: Mar. 1993.
[xiv][] ISO/IEC JTC 1, “Coding of moving pictures and associated audio for digital storage media at up to about 1.5 Mbit/s - Part 2: Video,” ISO/IEC 11172 (MPEG-1), Nov. 1993.
[xv][] ITU-T and ISO/IEC JTC 1, “Generic coding of moving pictures and a本论文由英语论文网提供整理,提供论文代写,英语论文代写,代写论文,代写英语论文,代写留学生论文,代写英文论文,留学生论文代写相关核心关键词搜索。
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