电离层电子密度变化对高频雷达处理影响的经验模型

Q3 Engineering

Progress In Electromagnetics Research B Pub Date : 2019-07-11 DOI:10.2528/PIERB19040204

Marie José Abi Akl, F. Jangal, M. Darces, M. Hélier

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引用次数: 1

摘要

高频混合雷达模式结合了天波和地波的传播。与所有高频雷达一样，它也会受到电离层不稳定性的影响。已经实现了一个能够包括电离层空间和时间变化的行为模型，以估计电离层不规则性对雷达信号处理和多普勒距离图像的影响。在这项工作中，仅使用相位路径波动引入了射线追踪中电离层波动的概率模型。基于Shkarofsky的谱功率密度，对Booker电子密度分布的一些参数进行了随机变化，产生了扰动的电子密度分布。然后，根据相位路径变化来计算在接收到的雷达信号中积分的传播延迟。此外，电离层变化的时间方面已经通过根据总电子含量变化的滤波步骤宏观地实现。该模拟的结果与相应的统计数据一起给出。已经计算了几个滤波器截止频率值和不同Shkarofsky谱功率密度参数的多普勒和距离分布。最后，上述过程正常工作：其结果已成功地与实际雷达数据进行了比较。

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AN EMPIRICAL MODEL OF THE EFFECTS OF IONOSPHERIC ELECTRON DENSITY VARIATIONS ON HF RADAR PROCESSING

The High Frequency hybrid radar mode combines sky and surface wave propagation. As all High Frequency radars, it can be impacted by ionospheric instabilities. A behavioral model able to include ionospheric spatial and temporal variations has been implemented to estimate the impact of ionospheric irregularities on radar signal processing and Doppler-distance images. In this work, probabilistic models of the ionospheric fluctuations in the ray tracing have been introduced using the phase path fluctuation only. Based on Shkarofsky’s spectral power density, random variations on some parameters of Booker’s electron density profile have been performed to generate disturbed electron density profiles. Afterwards, a propagation delay, integrated in the received radar signal, has been calculated in terms of phase path variation. Moreover, the temporal aspect of the ionospheric variations has been macroscopically implemented by a filtering step according to the Total Electron Content variation. Results of this simulation are presented with the corresponding statistics. Doppler and distance distributions have been computed for several filter cut-off frequency values and for different Shkarofsky’s spectral power density parameters. At last, the process described above works properly: its results have been successfully compared with actual radar data for this purpose.

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来源期刊

Progress In Electromagnetics Research B Engineering-Electrical and Electronic Engineering

CiteScore

2.70

自引率

0.00%

发文量

期刊介绍： Progress In Electromagnetics Research (PIER) B publishes peer-reviewed original, comprehensive and tutorial review articles on all aspects of electromagnetic theory and applications. It is a new journal in 2008, and freely available to all readers via the Internet. Manuscripts submitted to PIER B must not have been submitted simultaneously to other journals. Authors are solely responsible for the factual accuracy of their articles, and all articles are understood to have received clearance(s) for publication.