提供射频发射器地理定位的单个LEO卫星的性能界限

2018 9th Advanced Satellite Multimedia Systems Conference and the 15th Signal Processing for Space Communications Workshop (ASMS/SPSC) Pub Date : 2018-09-01 DOI:10.1109/ASMS-SPSC.2018.8510737

P. Ellis, F. Dowla

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引用次数: 4

摘要

计算了低地球轨道卫星的递归后克莱默-拉奥边界(rPCRB)，提供了射频发射器的地理位置估计。该边界不需要对情况的几何形状进行假设，允许地理位置参数随时间变化，并且可以与非线性估计算法性能进行有意义的比较。假设一个静止的发射器，它的速度仅仅来自地球的自转，这是建模和估计的。测量结果是瞬时频率被AWGN噪声破坏。以往的相关文献使用了简化的几何假设和传统的Cramer Rao边界(CRB)，仅在良性和选择性的场景下得出合理的结果。在这里，给出了更现实的性能界限，并展示了在“搜索和救援”场景中定位发射器的潜力。计算了各种场景下的性能界限，并使用合成数据估计的瞬时频率与Unscented卡尔曼滤波器进行了比较。

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Performance Bounds of a Single LEO Satellite Providing Geolocation of an RF Emitter

The recursive Posterior Cramer Rao Bound (rPCRB) is computed for a Low Earth Orbit (LEO) satellite providing geolocation estimates of an RF emitter. This bound takes no assumptions on the geometry of the situation, allows geolocation parameters to vary over time, and can be meaning-fully compared with nonlinear estimation algorithm performance. A stationary emitter is assumed, it’s only velocity coming from the earth’s rotation, which is modeled and estimated. The measurements are instantaneous frequencies corrupted with AWGN noise. Previous relevant literature uses simplified geometric assumptions and the traditional Cramer Rao Bound (CRB), producing reasonable results only in benign and select scenarios. Here, more realistic performance bounds are given and the potential of geolocating emitters in ’search and rescue’ scenarios is demonstrated. The performance bounds are computed for various scenarios and compared with an Unscented Kalman Filter using estimated instantaneous frequencies from synthesized data.

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2018 9th Advanced Satellite Multimedia Systems Conference and the 15th Signal Processing for Space Communications Workshop (ASMS/SPSC)

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