Use of a variance estimator for interferometer angle accuracy

Proceedings of the 1988 IEEE National Radar Conference Pub Date : 1988-04-20 DOI:10.1109/NRC.1988.10948

M. Greenspan, H. Holt, B. P. Radza

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Abstract

For radar applications requiring angle measurements on ground clutter over a large range swath or large elevation-angle extent, the single-pulse clutter-to-noise power ratio can be small due to low intercept grazing angles or low reflectivity. An approach is presented for using multiple returns to derive an angle variance estimate as a direct measure of data validity, rather than an amplitude threshold to better detect the presence of angle glint prior to angle estimation. The variance estimator can be used to detect the presence of spatially distributed interference returns such as those from a rain cloud. Results of a Monte Carlo signal simulation are presented to demonstrate the expected angle accuracy performance when the variance estimator is used in a phase interferometer radar. These results are compared to angle accuracy estimates based on an amplitude discriminant. Small integration sample size and degradation due to thermal noise, clutter, and glint are considered. The results are applicable to measurements in either azimuth or elevation angle and to discrete targets with Swerling-I amplitude fluctuation.<>

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使用方差估计的干涉仪角度精度

对于需要对大范围或大仰角范围的地杂波进行角度测量的雷达应用，由于低截距掠掠角或低反射率，单脉冲杂波噪声功率比可以很小。提出了一种方法，使用多个返回来得出角度方差估计作为数据有效性的直接度量，而不是一个幅度阈值，以便在角度估计之前更好地检测角度闪烁的存在。方差估计器可用于检测空间分布的干扰返回的存在，例如来自雨云的干扰返回。通过蒙特卡罗信号仿真，验证了方差估计器应用于相位干涉仪雷达时的预期角度精度性能。将这些结果与基于幅度判别法的角度精度估计进行了比较。考虑了小的集成样本尺寸和热噪声、杂波和闪烁引起的退化。结果适用于方位角和仰角的测量，也适用于具有转向- 1振幅波动的离散目标

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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Proceedings of the 1988 IEEE National Radar Conference

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