附加雷达信号用于水上目标识别

V. Gorobets, M. Golovko, S. Zotov, L. Kovorotny
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摘要

主题和目的。这篇文章致力于水上运动物体(海船)的无线电识别。问题在于雷达特征的缺乏,特别是连续模式下的相干雷达,这意味着需要更多的特征来识别水面目标。通过对目标反射信号进行简单的数学处理,可以获得一个附加信号。这对于当前使用的无线电识别系统尤其重要,因为这几乎不会使系统结构复杂化。因此,它也不会影响其成本。方法和方法论。用于检索在粗糙海面上移动的水运物体的附加雷达特征特征的方法是基于对从移动的水运物体反射的信号进行简单的数学处理,并从相干雷达的相位输出中提取。该方法是通过对三个水运物体的相位检测器输出信号的数学建模来验证的,这三个水运物体具有相同的散射截面,但侧面和龙骨振动的周期不同。结果。基于数学建模的结果表明,对于同一物体,每个局部散射中心使边振和龙骨振线速度之比大致相同。但是对于不同的对象,所使用的比率有不同的值。结论。在连续模式下使用单一标准相干雷达,并在开发的方法指导下,可以获得目标识别的附加特征,这是目标侧振和龙骨振动线速度的比率。所建议的方法可用于无线电识别水上物体在波涛汹涌的海面上移动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Additional radar signature for waterborne object recognition
Subject and Purpose. The article is devoted to the radio recognition of moving waterborne objects (sea-going ships). The problem lies in the lack of radar signatures, which is especially true for coherent radar in continuous mode, implying that more signatures for the waterborne object recognition is highly needed. An additional signature can be gained just by means of a simple mathematical processing of target reflection signals. This is particularly important for radio recognition systems in current use because this will hardly complicate the system structure. Hence, it will not affect its cost either. Methods and Methodology. The method developed for the retrieval of an additional radar signature characteristic of waterborne objects moving across a rough sea surface is based on a simple mathematical processing of a signal reflected from the moving waterborne object and taken from the phase output of coherent radar. The method approbation is by the mathematical modeling of signals at the phase detector output in the event of three waterborne objects such that have identical scattering cross sections but different periods of the side and keel vibrations. Results. Based on the mathematical modeling results, it has been shown that each of the local scattering centers keeps the ratio of the linear speeds of side and keel vibrations approximately the same for the same object. But the employed ratio takes different values for different objects. Conclusion. Having a single standard coherent radar in continuous mode and guided by the developed methodology, one can gain an additional signature for the target recognition, which is a ratio of the linear speeds of side and keel vibrations of the target. The suggested methodology can be used for the radio recognition of waterborne objects moving across a rough sea surface.
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