Spatial decorrelation of VHF and UHF trans-ionospheric signals measured at Ascension Island

2009 3rd European Conference on Antennas and Propagation Pub Date : 2009-04-28 DOI:10.1049/CP.2009.0047

M. van de Kamp, P. Cannon

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Abstract

The effect of spatial decorrelation of signals of space-based synthetic-aperture radars by equatorial ionospheric turbulence, is studied by monitoring 150 and 400 MHz signals from LEO beacon satellites on an array of spaced antennas located on Ascension Island, and analysing the cross-correlations of the phases of the received signals. The special property of this approach is that it does not convolve the spatial fluctuations with the movement of the satellite. The geometrical component of the phase difference between antennas is accurately removed by adjusting the satellite position using the measured phases. As expected, the phase of VHF signals is much more affected by scintillation than the UHF phase. In the example given, the spatial correlation over 130 m falls to zero at VHF and 0.55 at UHF. Correlations over longer distances have been determined using a novel dasiaphase reconstructionpsila technique. In the absence of scintillation the decorrelation distance is ~10 km for both frequencies. With increasing scintillation, the decorrelation distance decreases to around 100 m at VHF and 300 m at UHF.

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阿森松岛VHF和UHF跨电离层信号的空间去相关分析

通过对阿森松岛间隔天线阵列上LEO信标卫星150和400 MHz信号的监测，分析了接收信号相位的相互关系，研究了赤道电离层湍流对天基合成孔径雷达信号空间去相关的影响。这种方法的特殊性质是它不将空间波动与卫星的运动进行卷积。利用测得的相位调整卫星位置，精确地去除天线间相位差的几何分量。正如预期的那样，VHF信号的相位受闪烁的影响要比UHF信号的相位大得多。在给出的例子中，130 m以上的空间相关性在甚高频为零，在超高频为0.55。使用一种新的相重构技术确定了较长距离的相关性。在没有闪烁的情况下，两个频率的去相关距离都在~10 km。随着闪烁的增加，去相关距离在VHF和UHF分别减小到100 m和300 m左右。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 3rd European Conference on Antennas and Propagation

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