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编码16DAPSK信号解调译码新方法 被引量:3

A Novel Demodulation Decoding Method for Coded 16DAPSK Signals
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摘要 基于子载波采用16阶差分幅度相移键控(16DAPSK)的正交频分复用(OFDM)系统,提出并分析了编码16DAPSK信号的一种新的简单易行的比特软输出解调译码方法。仿真结果表明,在高斯信道、平坦Rayleigh衰落信道和多径Rayleigh衰落信道下,采用编码速率为3/4的punctured卷积码与16DAPSK信号的硬输出解调译码方法相比,系统的误码性能可改善约1.2dB。新方法应用在日本CRL开发的100Mbps毫米波16DAPSK-OFDM宽带移动接入实验系统,将进一步提高系统误码性能。 An OFDM system with 16DAPSK modulation for each subcarrier is considered. In this paper, a novel bit soft-output demodulation decoding scheme which is simpler to implement for coded 16DAPSK signal is proposed and investigated. The simulation results show that about 1.2dB performance gain can be achieved in AWGN, flat Rayleigh fading, and multipath Rayleigh fading channels with forward error correct coding (rate 3/4, punctured convolutional coding) compared with hard-decision decoding. The Bit-Error-Rate (BER) will be reduced if this method is applied in 100Mbps 16DAPSK-OFDM millimeter-wave broadband mobile access experimental system developed by CRL in Japan.
作者 秦雅娟 滨口清 刘元安
机构地区 北京交通大学电子信息工程学院 日本横须贺无线通信研究所 北京邮电大学电信工程学院
出处 《电子与信息学报》 EI CSCD 北大核心 2006年第9期1645-1648,共4页 Journal of Electronics & Information Technology
基金 863计划项目(2001AA123016) 北京交通大学科技基金(2004RC044)资助课题
关键词 差分幅度相移键控 软输出解调 正交频分复用 Differential Amplitude and Phase-Shift Keying (DAPSK), Soft-output demodulation, Orthogonal Frequency Division Multiplexing (OFDM)
分类号 TN92 [电子电信—通信与信息系统]
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参考文献6

  • 1滨口 清,过 宏之,小川博世.ミリ波広带域移動アクセスシステム用100Mbps-OFDMモデムの開発[J].信学技報,Technical Report of IEICE, 2001, CS2001-44, RCS2001-51:1-7.
  • 2Moriyama S, Tsuchida K, Sasaki M. Digital transmission of high bit rate signals using 16DAPSK-OFDM modulation scheme [J].IEEE Trans. on Broadcasting, 1998, 44(1): 115-122.
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同被引文献24

  • 1马丕明,袁东风,杨秀梅,吴大雷.基于IEEE802.11a标准的LDPC编码的OFDM无线通信系统[J].系统工程与电子技术,2005,27(1):163-166. 被引量:3
  • 2王文博,郑侃.宽带无线通信OFDM技术[M].2版.北京:人民邮电出版社.2007.
  • 3Rohde U L. Whitaker J C. Communications Receivers-DSP Software Radio and Design (Third Edition)[M]. Mc Graw Hill. 2001:463-465.
  • 4Cai Quanwei, Wei Ping, Xiao Xianci. A Digital Modulation Recognition Method[J]. IEEE Trans, on Communications, 2004, COM-38(07):863-866.
  • 5Swami A, Sadler M. Hierarchical Digital Modulation Using Cumulants[J]. IEEE Trans, on Communications ,2000, COM-38(03): 416-429.
  • 6Eyre J. The Digital Signal Processor Derby[J]. IEEE Spectrum, 2001, 38 (06) : 62 -68.
  • 7Stojanovic M. Recent advances in high speed under- water acoustic communication[J]. IEEE J Oceanic Eng, 1996, 21(2): 125-136.
  • 8Chow Y C, Nix A R, Mcgeehan J P. Analysis of 16- APSK modulation in AWGN and Rayleigh fading channel[J]. Electronics Letters, 1992, 28(17): 1608- 1610.
  • 9Gaudenzi R D, Guillen F A, Martinez A. Turbo-co- ded APSK modulations design for satellite broadband communications[J]. International Journal of Satellite Communications and Networking, 2006, 24: 261-281.
  • 10Gaudenzi R D, Guillen F A, Martinez A. Perform- ance analysis of turbo-coded APSK modulations over nonlinear satellite channels[J]. IEEE Transactions on Wireless Communications, 2006, 5(9): 2396 -2407.

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电子与信息学报
2006年 第9期

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