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低信噪比下SMCC+系统精确大频偏估计方案

罗仁泽 王汝言 朱维乐 蒋涛

罗仁泽, 王汝言, 朱维乐, 蒋涛. 低信噪比下SMCC+系统精确大频偏估计方案[J]. 电子与信息学报, 2004, 26(10): 1575-1579.
引用本文: 罗仁泽, 王汝言, 朱维乐, 蒋涛. 低信噪比下SMCC+系统精确大频偏估计方案[J]. 电子与信息学报, 2004, 26(10): 1575-1579.
Luo Ren-ze, Wang Ru-yan, Zhu Wei-le, Jiang Tao. Fast and Precise Scheme of Frequency Offset Estimation with Large Range for SMCC+ System with Lower SNR[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1575-1579.
Citation: Luo Ren-ze, Wang Ru-yan, Zhu Wei-le, Jiang Tao. Fast and Precise Scheme of Frequency Offset Estimation with Large Range for SMCC+ System with Lower SNR[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1575-1579.

低信噪比下SMCC+系统精确大频偏估计方案

Fast and Precise Scheme of Frequency Offset Estimation with Large Range for SMCC+ System with Lower SNR

  • 摘要: 该文基于由电子科技大学提出的作为中国地面数字多媒体电视广播传输标准候选方案之一的SMCC+系统和OFDM系统,提出了一种在低信噪比下利用特殊构造的短PN序列进行快速精确的大范围频率同步的方法。经仿真证明,信噪比在-20 dB范围以上时,该法在AWGN,单抽头瑞利衰落信道和等值双径瑞利衰落信道环境纠正大范围频偏的性能比Tufvesson等人(1999)同类常规算法性能更优,从理论上而言,该算法可以估计1/2带宽范围内的频率偏移,显然,该算法优于常规同类算法。
  • ATSC. ATSC digital television standard. ATSC Standard A/53, September 16,1995.[2]ETS 300 744. Digital broadcasting systems for television, sounding services; framing structure, channel coding and modulation for digital terrestrial television, ETSI Draft EN 300 744V1.1.1(1999-1).[3]ITU-R WP 11A/59. Channel coding, frame structure and modulation scheme for terrestrial integrated service digital broadcasting (ISDB-T), ITU-R WP 11A/59-E, May 17, 1999.[4]Tureli U, Kivanc D, Liu H. Experimental and analytical studies on a high resolution OFDM carrier frequency estimator[J].IEEE Trans. on Vehicular Technology.2001, 50(2):629-643[5]Chen Biao. Maximum likelihood estimation of OFDM carrier frequency offset[J].IEEE Signal Processing Letters.2002, 9(4):123-126[6]Tureli U, Liu Hui, Zoltowski M D. OFDM blind carrier estimation: ESPRIT. IEEE Trans. on Commun., 2000, COM-48(9): 1459-1461.[7]Moosez P H. Technique for orthogonal frequency division multiplexing frequency offset correction.IEEE Trans. on Commun., 1994, COM-42(10): 253-257.[8]V. de Beek, J. J Sandell M, et al.. ML estimation of time and frequency offset in OFDM systems.IEEE Trans. on Signal Processing, 45(7): 1800-1805.[9]Meng-Han Hsieh, Che-Ho. A low-complexity frame synchronization and frequency offset compensation for OFDM systems over fading channels. IEEE Trans. on Commun., 1999, COM-48(5):1596-1609.[10]Schmidl M, et al.. Robust frequency and timing synchronization for OFDM. IEEE Trans. on Conmun., 1997, COM-45(12): 1613-1621.[11]Tufvesson F, et al.. Time and frequency synchronization for OFDM using PN-sequence preambles.IEEE Vehicular Technology Conference, 1999, VTC, Amsterdam, The Netherlands, 1999: 2203-2207.[12]Proakis G. Wireless Communications Principles and Pracitce. New York: Prentice Hall Inc.,1996, Chapter 4.
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出版历程
  • 收稿日期:  2003-07-10
  • 修回日期:  2004-03-15
  • 刊出日期:  2004-10-19

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