An optimal searching scheduling algorithm about multifunction radar of ballistic missile defence system based on Air-space information

Mei-Guo Gao, Hao Fan, Shucai Huang, Xia Jing, Zhiguo Long
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Abstract

In the ballistic missile defence system, multifunction radars search enemy targets with the support of space-based satellites. This paper proposes a novel optimal searching scheduling algorithm. Its flows can be described as follows. Immediately detecting the enemy targets, radar samples position and speed in the area where the target may be fall in. Furthermore, by projecting those samples set onto the radar sinusoidal panel and referring to its probability distribution can we determine radar beam irradiation orientation. The detection results can be utilized to update prior probability about samples. The above process can be treated as just one recursive step in the whole algorithm flow. Not only the previous problem that it is difficult to gain analytic computation about projection of target error sphere onto sinusoidal panel but also how dynamic matching between the projection area and high speed is realized is answered convincingly. The simulation shows the new algorithm is effective in term of improving the searching ability about radar.
基于空域信息的弹道导弹防御系统多功能雷达最优搜索调度算法
在弹道导弹防御系统中,多功能雷达在天基卫星的支持下搜索敌方目标。提出了一种新的最优搜索调度算法。它的流程可以描述如下。雷达立即探测敌方目标,在目标可能落入的区域取样位置和速度。将这些样本集投影到雷达正弦波面板上,并根据其概率分布确定雷达波束照射方向。检测结果可以用来更新样本的先验概率。上述过程可以看作是整个算法流程中的一个递归步骤。不仅令人信服地回答了以往目标误差球在正弦面板上投影难以解析计算的问题,而且还解决了如何实现投影区域与高速的动态匹配。仿真结果表明,新算法在提高雷达搜索能力方面是有效的。
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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