基于m序列的OFDM二阶时频同步算法

详细信息    查看全文 | 推荐本文 |

英文篇名：A Two-stage Tim and Frequency Synchronization Method for OFDM Systems Based on m-sequence Preamble 作者：秦文霞 ; 解永生 ; 刘建坡 ; 李宝清 ; 袁晓兵 英文作者：QIN Wen-xia;XIE Yong-sheng;LIU Jian-po;LI Bao-qing;YUAN Xiao-bing;Wireless Sensor Network Laboratory,Shanghai Institute of Microsystem and Information Technology,Chinese Academic of Science; 关键词：OFDM ; 数据辅助同步算法 ; 时频联合同步 ; m序列 ; 延时相关 ; 差分相关 英文关键词：OFDM preamble-based synchronization time and frequency synchronization m-sequences auto-correlation differential correlation 中文刊名：KXJS 英文刊名：Science Technology and Engineering 机构：中国科学院上海微系统与信息技术研究所无线传感网实验室; 出版日期：2014-07-18 出版单位：科学技术与工程 年：2014 期：v.14;No.309 基金：微系统技术国防科技重点实验室基金项目(9140C18010213ZK34001)资助 语种：中文; 页：KXJS201420046 页数：4 CN：20 ISSN：11-4688/T 分类号：239-242

摘要

针对S&C方法的定时平台和Minn方法出现多个峰值的不足,设计了一种基于m序列具有四重重复反对称的结构。提出一种基于本训练序列的OFDM二阶时频同步算法:粗同步和精同步。在粗同步时,利用训练序列的特殊结构,采用延时相关确定粗同步的定时位置,在此位置的前后小范围内利用m序列及其循环移位序列与接收数据进行差分相关算法,完成精同步定时。继而利用训练序列的延时相关求得小数频偏估计。仿真结果显示,在多径衰落信道下,与已有算法比较,所提出的二阶算法定时准确,频偏估计性能良好,尤其在信噪比较低时采用该算法能实现更准确的同步。
        In order to reduce the time synchronization platform of S&C algorithm and side-peak of Minn algorithm,a new two-stage time and frequency synchronization for OFDM systems was proposed which approach exploited a single-symbol preamble with a repetitive structure,composed of four identical m-sequences with an inverse polarity for the first half part and the latter half part. The first stage,coarse stage,the auto-correlation was used to finish synchronization based on the special structure of preamble. The second stage,fine stage,the differential correlation was used to find a more accurate timing location around the timing position of the coarse stage. The fractional frequency offset estimation was accomplished by auto-correlation of the repetitive preamble after the time synchronization has been done. The simulation results prove that,compared to existing algorithms,the accuracy of time synchronization and the fractional frequency offset estimation are greatly enhanced in multipath fading channel,even at very low SNRs.

引文

1 J-J van de Beek,sandell M.Borjesson P O,ML estimation of time and frequency offset in OFDM systems.IEEE Trans Signal Processing,1997;45(7):1800—1805
    2 Speth M,Classen F,Meyr H.Frame synchronization of OFDM system over frequency selective fading channels.Proc of VTC 1997-Spring,Phoenix,1997;3:1807—1811
    3 Minn H,Bhargava V K,Letaief K B.A novel timing estimation method for OFDM systems.IEEE Trans Commun,2003;2(4):822 —839
    4 Schmidl T M,Cox D C,Robust frequency and timing synchronization for OFDM.IEEE Trans Commun,1997;45(2):1613—1621
    5 Minn H,Zeng M,Bhargava V K.On timing offset estimation for OFDM systems.IEEE Commun Lett,2000;4(7):242—244
    6 Park B J,Cheon H S,Kang C G,et al.A novel timing estimation method for OFDM systems.IEEE Commun Lett,2003;7(5):239 —241
    7 Ren G,Chang Y,Zhang H,Synchronization method based on a new constant envelop preamble for OFDM systems.IEEE Trans Broadcast,2005;51(1):139—143
    8 Nasraoui L,Atallah L N,Siala M.An efficient reduced-complexity two-stage differential sliding correlation approach for OFDM synchronization in the multipath channel.Wireless Communications and Networking Conference(WCNC),IEEE,2012:2059—2063