The SNR Study of the Wide Swath SAR Basing on Elevation Multi-receiver

Wang Xiao-qing; Xiao Jiang; Chen Yong-qiang; Zhu Min-hui

doi:10.3724/SP.J.1146.2006.00290

Volume 29 Issue 9

Jan. 2011

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Wang Xiao-qing, Xiao Jiang, Chen Yong-qiang, Zhu Min-hui. The SNR Study of the Wide Swath SAR Basing on Elevation Multi-receiver[J]. Journal of Electronics & Information Technology, 2007, 29(9): 2101-2104. doi: 10.3724/SP.J.1146.2006.00290

Citation:

Wang Xiao-qing, Xiao Jiang, Chen Yong-qiang, Zhu Min-hui. The SNR Study of the Wide Swath SAR Basing on Elevation Multi-receiver[J]. Journal of Electronics & Information Technology, 2007, 29(9): 2101-2104. doi: 10.3724/SP.J.1146.2006.00290

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The SNR Study of the Wide Swath SAR Basing on Elevation Multi-receiver

doi: 10.3724/SP.J.1146.2006.00290 cstr: 32379.14.SP.J.1146.2006.00290

Received Date: 2006-03-13
Rev Recd Date: 2007-01-17
Publish Date: 2007-09-19

Abstract

Abstract

The wide swath synthetic aperture radar (SAR) method basing on elevation multi-receiver is proved to be a high precise and feasible wide swath SAR method by theory and simulation. The SNR of this method has been analyzed by the matrix condition, and the analysis leads to only a qualitative conclusion in previous study. In this paper, the explicit formula is deduced for the SNR of this method, then the limit of the SNR is given and the optimal SNR design rule is presented. Finally, some system schemes according to the optimal SNR rule is given at last and those SNR curve is calculated to validate the rule.

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References(1)

References

Moore R K. Scanning spaceborne synthetic aperture radar with integrated radiometer. IEEE Trans. on AES, 1981, 17(3): 410-420.[2]Currie A and Brown M A. Wide-swath SAR. IEE Proc.-F, 1992, 139(2): 122-135.[3]王小青，朱敏慧. 一种宽测绘带SAR新方法的探讨[J].电子与信息学报.2003,25(10):1425-1429浏览[4]Goodman N A and Lin Sih Chung. Procesing of multiple-receiver spaceborne arrays for wide-area SAR. IEEE Trans. on GRS, 2002, 40(4): 841-852.[5]Callaghan G D and Longstaff I D. Wide-swath space-born SAR using a quad-element array. IEE Proc.-F, 1999, 146(3): 159-165.[6]Griffiths H D and Mancini P. Ambiguity suppression in SARs using adaptive array techniques. Proc. of IGARSS91 Symp., Helsinki University of Technology, Espo, Finland, 1991: 1015-1018.[7]王小青，郭琨毅，盛新庆，朱敏慧. 基于距离向多孔径接收的宽测绘带SAR成像方法的研究[J].电子与信息学报.2004,26(5):739-745浏览[8]王小青. 宽测绘带方法及其仿真研究. [博士论文]，北京：中国科学院电子学研究所，2005年1月.[9]王小青，郭琨毅，盛新庆，朱敏慧. 一种应用在多孔径宽测绘带SAR中的CS算法[J].电子与信息学报.2005,27(12):1861-1866浏览[10]Wang Xiaoqing, Zhu Minhui, and Sheng Xinqing. The angle error estimate method in the wide swath SAR basing on multi-receiver[J].Journal of Electronics (China.2006, 23(3):374-378[11]郭琨毅，王小青，盛新庆. 距离向多孔径接收宽测绘带SAR三种成像算法比较. 电波科学学报，2005，20(1)：119-124. Guo Kun-yi, Wang Xiao-qing, and Sheng Xin-qing. Comparison of three imaging algorithm for multi-aperture wide-swath synthetic aperture radar (MAWS-SAR). China Journal of Radio Science., 2005, 20(1): 119-124.[12]郭琨毅，王小青，盛新庆. 距离向多孔径超宽测绘带成像体制中各项误差分析[J].电子与信息学报.2005,27(9):1383-1387浏览[13]郭琨毅. 超宽测绘带微波成像若干体制的并行仿真研究. [博士论文], 北京：中国科学院电子学研究所，2005年1月.[14]Gautschi W. On the inverse Vandemonde and confluence Vandemonde matries[J].Numer. Math.1962, 4(2):117-123[15]Macon N and Spitzbart A. inverse of Vandemonde matries, Amer[J].Math. Mon.1958, 65(2):95-100

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