Investigation of radar propagation prediction methods using ARTIST data

2014 International Radar Conference Pub Date : 2014-10-01 DOI:10.1109/RADAR.2014.7060265

H. Wheelwright, W. Wallace, W. Dawber, D. Manson

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引用次数: 1

Abstract

This article examines the assessment of propagation conditions using data from a state-of-the-art, multi-function radar, namely the advanced radar technology integrated system testbed (ARTIST). The radar was situated at Wallops Island, USA and an extensive series of clutter recordings was conducted in 2010. The recordings are compared to site specific modelling using the naval electromagnetic environmental simulation suite (NEMESiS) software. Using this modelling software, it is shown that refractivity profiles predicted using local environmental measurements, in conjunction with analytical descriptions of evaporation ducts, do not result in a high fidelity reproduction of the clutter observed. Refractivity profiles recorded with radiosondes result in a better match to the data, but can produce an over-prediction of clutter. It is concluded that the most robust way to accurately assess propagation conditions is through a direct analysis of the radar clutter data, in conjunction with detailed modelling. This approach, duct inversion, is explored and is shown to have the potential of providing a quasi-real time assessment of propagation conditions, as required for environmentally aware radar.

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基于艺术家数据的雷达传播预测方法研究

本文使用最先进的多功能雷达，即先进雷达技术集成系统试验台(ARTIST)的数据检查传播条件的评估。该雷达位于美国沃洛普斯岛，并于2010年进行了一系列广泛的杂波记录。使用海军电磁环境模拟套件(NEMESiS)软件将记录与现场特定建模进行比较。使用该建模软件，表明利用当地环境测量预测的折射率剖面，结合蒸发管道的分析描述，不能产生观察到的杂波的高保真再现。用无线电探空仪记录的折射率剖面结果与数据吻合得更好，但可能会产生对杂波的过度预测。结论是，准确评估传播条件的最可靠方法是通过对雷达杂波数据的直接分析，并结合详细的建模。研究人员探索了这种管道反演方法，并证明该方法具有提供准实时传播条件评估的潜力，这是环境感知雷达所需要的。

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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2014 International Radar Conference

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