A New Algorithm for Sparse Aperture Extrapolation in Radar Imaging

Wang Qi; Zhou Feng; Xing Meng-dao; Huang Jin-jie; Bao Zheng

doi:10.3724/SP.J.1146.2006.00577

Volume 29 Issue 11

Jan. 2011

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Article Navigation > Journal of Electronics & Information Technology > 2007 > 29(11): 2698-2701

Wang Qi, Zhou Feng, Xing Meng-dao, Huang Jin-jie, Bao Zheng. A New Algorithm for Sparse Aperture Extrapolation in Radar Imaging[J]. Journal of Electronics & Information Technology, 2007, 29(11): 2698-2701. doi: 10.3724/SP.J.1146.2006.00577

Citation:

Wang Qi, Zhou Feng, Xing Meng-dao, Huang Jin-jie, Bao Zheng. A New Algorithm for Sparse Aperture Extrapolation in Radar Imaging[J]. Journal of Electronics & Information Technology, 2007, 29(11): 2698-2701. doi: 10.3724/SP.J.1146.2006.00577

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A New Algorithm for Sparse Aperture Extrapolation in Radar Imaging

doi: 10.3724/SP.J.1146.2006.00577

Received Date: 2006-04-30
Rev Recd Date: 2007-02-05
Publish Date: 2007-11-19

Abstract

Abstract

An algorithm for estimating full aperture by sparse data is proposed in this paper. For big vacant aperture in sparse data, by measuring sparse data actually, accurate sparse data frequency domain energy distribution estimate can be obtained with parametric approaches. With estimated power spectrum as prior information, minimum weighting norm as the restraint, underdetermined equations are solved to interpolate vacant aperture, thus wide aperture data segment estimate is obtained. This algorithm can be effectively applied to SAR imaging in sparse data. Resulting simulation and actual data processing results confirm validity of the proposed algorithm.

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References

Gupta I J, eals M J and Moghaddar A. Data extrapolation for high resolution radar imaging[J].IEEE Trans. on Antennas and Propagation.1994, 42(11):1540-1545[2]Li H J, Farhat N H, and Shen Y S. A new iterative algorithm for extrapolation of data available in multiple restricted regions with applications to radar imaging[J].IEEE Trans. on Antennas and Propagation.1987, 35(5):581-588[3]G.larsson E, and Liu G Q. High-resolution SAR imaging with angular diversity. IEEE Trans. on Aerospace and Electronic Systems, 2001, 37(4): 1359-1372.[4]Cabrera S D and Parks T W. Extrapolation and spectral estimation with iterative weighted norm modification[J].IEEE Trans. on Signal Processing.1991, 39(4):842-851[5]Brito A E, Chan S H, and Cabrera S D. SAR image formation using 2-D re-weighted minimun norm. SPIE Conference on Algorithms for Synthetic Aperture Radar Imagery 6 Oriando, Florida. April 1999: 78-91.[6]Potter L C and Arun K S. Energy concentration in bandli- mited extrapolation[J].IEEE Trans. on Acoustics Speech and Signal Processing.1989, 37(7):1027-1041[7]Cuomo K M, Piou J E, and Mayhan J T. Ultrawide- band coherent processing[J].IEEE Trans. on Antennas and Propagation.1999, 47(6):1094-1107[8]Quinquis A, Radoi E, and Totir F C. Some radar imagery results using superresolution techniques[J].IEEE Trans. on Antennas and propagation.2004, 52(5):1230-1244[9]Roy R and Kailath T. ESPRIT-estimation of signal param- eters via rotational invariance techniques[J].IEEE Trans. on Acoustics Speech and Signal Processing.1989, 37(7):984-995

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