Clutter Simulation of Dynamic Sea Surface under Two Motion Modes of Radar Seeker

2021 13th International Symposium on Antennas, Propagation and EM Theory (ISAPE) Pub Date : 2021-12-01 DOI:10.1109/ISAPE54070.2021.9753354

W. Shi, Wei Liu, Y. Zuo, Lixin Guo

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Abstract

In the traditional EM scattering model of the sea surface, sea clutter with different parameters are usually calculated under the static condition of the radar platform. However, most radars move in different motion states, e.g., radar seeker is equipmented in a moving missile-borne platform. This paper introduces in detail the model and process of the integration of moving radar seeker and sea surface under the side-looking radar and forward-looking radar seeker. The vector superposition of the results of the physical optics method (PO) on facets is used to calculate the EM scattering under the condition of seeker beam irradiation. Sea clutter under different marine conditions and radar platform parameters are simulated and analyzed. It is pointed out that the amplitude of the side-looking motion radar platform increases significantly when the wind speed increases. When the platform velocity increases, it has little effect on sea clutter time series. For the forward-looking motion radar platform, the frequency increases significantly with the increase of wind speed or the increase of platform velocity.

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雷达导引头两种运动模式下动态海面杂波仿真

在传统的海面电磁散射模型中，通常是在雷达平台静态条件下计算不同参数的海杂波。然而，大多数雷达在不同的运动状态下运动，例如，雷达导引头装备在一个移动的导弹载平台上。详细介绍了侧视雷达和前视雷达导引头下运动雷达导引头与海面集成的模型和过程。利用物理光学法(PO)结果在切面上的矢量叠加，计算了导引头光束辐照条件下的电磁散射。对不同海况和雷达平台参数下的海杂波进行了仿真分析。指出当风速增大时，侧视运动雷达平台的幅值显著增大。当平台速度增大时，对海杂波时间序列影响不大。对于前视运动雷达平台，频率随风速或平台速度的增加而显著增加。

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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2021 13th International Symposium on Antennas, Propagation and EM Theory (ISAPE)

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