Space-Domain Awareness Using Over-the-Horizon Radar

IEEE Transactions on Radar Systems Pub Date : 2025-01-27 DOI:10.1109/TRS.2025.3534521

Simon Henault;Kyra Czarnowske;Yahia M. M. Antar

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Abstract

The use of existing over-the-horizon radar (OTHR) systems as space-domain awareness (SDA) sensors is experimentally evaluated by tracking several International Space Station (ISS) passes under different solar activity conditions. Using range and Doppler measurements, a single-frequency ionospheric correction technique is introduced and is shown to be critical to the implementation of accurate SDA using OTHR. This single-frequency technique is also useful for monitoring the ionosphere total electron content (TEC) using a space target without very accurate prior knowledge of its orbital parameters. All measurements and orbit determination results are validated with truth data provided by the National Aeronautics and Space Administration (NASA). Although it is determined that angle-of-arrival (AOA) measurements are not accurate enough for accurate SDA, orbit determination using single-pass observations from a single site are shown to yield position and velocity errors that can be better than 500 m and 0.7 m/s with a radar bandwidth of only 10 kHz. Accurate SDA using OTHR is determined to be possible especially at night or in periods of solar minimum.

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利用超视距雷达进行空间域感知

利用现有的超视距雷达（OTHR）系统作为空间域感知（SDA）传感器，通过在不同太阳活动条件下跟踪多个国际空间站（ISS）通道，对其进行了实验评估。利用距离和多普勒测量，介绍了一种单频电离层校正技术，该技术对利用OTHR实现精确的SDA至关重要。这种单频技术对于使用空间目标监测电离层总电子含量（TEC）也很有用，而不需要非常精确的轨道参数先验知识。所有测量和轨道确定结果都是用美国国家航空航天局（NASA）提供的真实数据进行验证的。虽然确定到达角（AOA）测量不够精确，无法实现精确的SDA，但在雷达带宽仅为10 kHz的情况下，使用单个站点的单次观测确定轨道会产生位置和速度误差，分别优于500米和0.7米/秒。在夜间或太阳活动极小期，利用OTHR进行精确的SDA是可能的。

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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IEEE Transactions on Radar Systems

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