Blind Doppler Tracking and Positioning with NOAA LEO Satellite Signals

Proceedings of the Satellite Division's International Technical Meeting Pub Date : 2023-10-05 DOI:10.33012/2023.19463

Sharbel Kozhaya, Haitham Kanj, Zaher M. Kassas

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Abstract

A spectral approach for blind acquisition and Doppler tracking of low Earth orbit (LEO) satellite signals is applied to National Oceanic and Atmospheric Administration (NOAA) satellites. The approach accounts for the high LEO satellites’ dynamic channel, by deriving an appropriate model for the received signal frequency spectrum. A frequency-domain-based Doppler discriminator is utilized along with a Kalman filter-based Doppler tracking algorithm. Experimental results are presented showing successful acquisition and Doppler tracking of NOAA LEO satellite signals. Next, the approach is demonstrated in multi-constellation LEO acquisition and tracking, showing Hz-level Doppler tracking of 4 Starlink, 2 OneWeb, 1 Iridium NEXT, 1 Orbcomm, and 1 NOAA LEO satellites. Carrier phase observables were constructed from the tracked Doppler and fused through a nonlinear least-squares estimator to localize a stationary receiver. Starting with an initial estimate 3,600 km away from the receiver’s true position, the proposed approach is shown to achieve a two-dimensional (2D) error of 5.1 m.

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NOAA LEO卫星信号的盲多普勒跟踪和定位

针对美国国家海洋和大气管理局(NOAA)卫星，提出了一种低地球轨道卫星信号盲捕获和多普勒跟踪的光谱方法。该方法通过推导合适的接收信号频谱模型，考虑了高低轨卫星的动态信道。采用了基于频域的多普勒鉴别器和基于卡尔曼滤波的多普勒跟踪算法。实验结果表明，对NOAA低轨卫星信号进行了成功的捕获和多普勒跟踪。接下来，该方法在多星座LEO捕获和跟踪中进行了演示，展示了4颗Starlink、2颗OneWeb、1颗铱星Next、1颗Orbcomm和1颗NOAA LEO卫星的hz级多普勒跟踪。利用跟踪的多普勒信号构造载波相位观测值，并通过非线性最小二乘估计器进行融合，实现对固定接收机的定位。从距离接收器真实位置3,600公里的初始估计开始，所提出的方法被证明可以实现5.1米的二维(2D)误差。

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 Satellite Division's International Technical Meeting

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