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Volume 32 Issue 03
Mar.  2006
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Journal of Beijing University of Aeronautics and Astronautics  > 2006  >  32(03): 328-332.
Ju Min, Xu Zongze. Low-rank adaptive method for sub-optimal channel estimation in OFDM system[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(03): 328-332. (in Chinese)
Citation: Ju Min, Xu Zongze. Low-rank adaptive method for sub-optimal channel estimation in OFDM system[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(03): 328-332. (in Chinese)
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Low-rank adaptive method for sub-optimal channel estimation in OFDM system

  • College of Information Science and Technology, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China

  • Received Date: 31 Mar 2005
  • Publish Date: 31 Mar 2006
    Abstract
  • A sub-optimal channel estimation algorithm in orthogonal frequency division multiplexing (OFDM) system was proposed, to reduce the complexity of traditional minimum mean square error (MMSE) channel estimator, and to alleviate the performance deterioration of MMSE estimator due to the mismatch of the estimator-to-channel statistics. This algorithm utilizes time-average channel correlation matrix in place of exact channel correlation matrix and approximates the MMSE estimator by a low-rank structure. Based on subspace tracking, this algorithm adaptively estimates the noise power and the principal eigenspace of time-average channel correlation matrix, and asymptotically converges to the solution of optimal MMSE estimation. Further theoretical analysis indicates that delay subspace tracking algorithm is a special case of this newly proposed algorithm, and both theoretical analysis and simulation results illustrate that this algorithm can significantly improve channel estimation accuracy at low signal to noise ratio(SNR) with reduced implementation complexity.

     

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  • [1] 肖征荣, 余 智, 赵绍刚, 等. 使用复小波包的MIMO-OFDM无线系统[J]. 北京亚洲成人在线一二三四五六区学报, 2004, 30(11):1084~1087 Xiao Zhengrong, Yu Zhi, Zhao Shaogang, et al. Complex wavelet packet based MIMO-OFDM wireless system[J]. Journals of Beijing University of Aeronautics and Astronautics, 2004, 30(11):1084~1087(in Chinese) [2] Steven M K. Fundamentals of statistical signal processing:estimation theory [M]. Upper Saddle River, NJ. USA:Prentice Hall, 1993. 344~365 [3] Ye L, Leonard J C, Nelsonr S. Robust channel estimation for OFDM systems with rapid dispersive fading channels [J]. IEEE Trans on Comm, 1998, 46(7):902~914 [4] Ove E, Magnus S, Van de beek J J, et al. OFDM channel estimation by singular value decomposition [J]. IEEE Trans on Comm, 1998, 46(7):931~939 [5] Peter S. Low-rank adaptive filter [J]. IEEE Trans on Signal Processing, 1996, 44 (12):2932~2947 [6] Osvaldo S, Yeheskal B, Umberto S. Pilot-based channel estimation for OFDM systems by tracking the delay-subspace [J]. IEEE Trans on Wireless Comm, 2004, 3(1):315~325 [7] Peter H. A statistical discrete-time model for the WSSUS multipath channel [J]. IEEE Trans on Vehicular Technology, 1992, 41(4):461~468 [8] Schniter P. Low-complexity equalization of OFDM in doubly selective channels [J]. IEEE Trans on Signal Processing, 2004, 52 (4):1002~1011
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