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基于插值圓阵的宽带信号二维空间谱估计

李平安 孙进才 俞卞章

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文章导航 > 电子与信息学报  > 1996 >  18(4): 344-348
李平安, 孙进才, 俞卞章. 基于插值圓阵的宽带信号二维空间谱估计[J]. 电子与信息学报, 1996, 18(4): 344-348.
引用本文: 李平安, 孙进才, 俞卞章. 基于插值圓阵的宽带信号二维空间谱估计[J]. 电子与信息学报, 1996, 18(4): 344-348.
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Li Pingan, Sun Jincai, Yu Bianzhang. TWO-DIMENSIONAL SPATIAL-SPECTRUM ESTIMATION FOR WIDE-BAND SOURCES BASED ON INTERPOLATED CIRCULAR ARRAYS[J]. Journal of Electronics & Information Technology, 1996, 18(4): 344-348.
Citation: Li Pingan, Sun Jincai, Yu Bianzhang. TWO-DIMENSIONAL SPATIAL-SPECTRUM ESTIMATION FOR WIDE-BAND SOURCES BASED ON INTERPOLATED CIRCULAR ARRAYS[J]. Journal of Electronics & Information Technology, 1996, 18(4): 344-348.
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基于插值圓阵的宽带信号二维空间谱估计

TWO-DIMENSIONAL SPATIAL-SPECTRUM ESTIMATION FOR WIDE-BAND SOURCES BASED ON INTERPOLATED CIRCULAR ARRAYS

    摘要
  • 摘要: 在阵列信号处理中,确定信号的波达方向(DOA)需要估计信号的二维(2-D)空间谱。C。Usha Padmini等人(1994)已证明,圆阵用于估计宽带信号的DOA时具有许多好的特性。尤其是在基于圆阵的宽带信号子空间一维DOA估计中,即使不用延迟抽头也不会出现频率-方向模糊。在估计宽带信号的2-D空间谱时,我们发现用不带延迟抽头的圆阵会出现频率-仰角模糊。本文提出了一种用插值圆阵估计宽带信号2-D空间谱的新方法。在估计中,采用大孔径的圆阵(rmin/2)能获得更好的分辨性能和估计稳健性。
    Abstract: In array signal processing, 2-D spatial-spectrum estimation is required to determine DOA of multiple signals. A circular array of sensors is found to possess several nice properties for DOA estimation of wide-band sources. C. Usha Padmini et al. (1994) have suggested that there is no frequency-direction ambiguity in azimuth estimation for wide-band signals by using a circular array, even without the use of any tap delay elements. In 2-D spatial-spectrum estimation for wide-band signals, we find that it is impossible to avoid the ambiguity in source frequency-elevation angle pairs using a circular array. In this paper, interpolated circular arrays are used to perform 2-D spatial-spectrum estimation for wide-band sources. In the estimation, a large aperture circular array (r min/2) is found to possess suprior resolution capability and robustness.
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    • 参考文献(1)
  • Su G, Morf M. IEEE Trans. on ASSP, 1983, ASSP-31(12): 1,502- 1122.[2]Wax M, et al. IEEE Trans. on ASSP, 1984, ASSP-32(8): 817-827.[3]Wang H, Kaveh M. IEEE Trans. on ASSP, 1985, ASSP-33(8?: 823-831.[4]Krolik J, Swingler D N. IEEE Trans. on ASSP, 1990, ASSP-38(2): 356-360.[5]Friedlander B, Weiss A J. IEEE Trans. on ASSP 1993, ASSP-41(4): 1618-1634.[6]Buckley K M, Griffiths L J. IEEE Trans. on ASSP 1988, ASSP-36(7): 953-964.[7]Padmini C U, Naidu P S. Signal Processing, 1994, 37(2): 243-254.
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出版历程
  • 收稿日期:  1995-04-24
  • 修回日期:  1995-12-11
  • 刊出日期:  1996-07-19

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