Real-time route planning for low observable unmanned combat aerial vehicle

Advanced Control for Applications Pub Date : 2024-02-27 DOI:10.1002/adc2.194

Yuanchao Yang

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Abstract

The next generation of low observable (LO) unmanned combat aerial vehicle (UCAV) with highly autonomy to implement a penetration mission requires advanced methods for flyable and safe route planning (i.e., respecting physical capability of vehicle and threat coverage by hostile air defense radars) at a real-time manner. Currently, the main challenge of real-time route planning for LO UCAV is to achieve computationally efficiency under dynamic (pop-up/moving) threats by air defense radars. In this paper, a real-time planning paradigm in compliance with complex penetration requirements is proposed, and a complete modeling of route planning for LO UCAV's penetration as an optimal control problem is designed. The paper at first devises a direct method to transform the optimal control problem into a nonlinear programming (NLP) problem and then solves the formulated NLP problem under a moving planning horizon. The proposed method can give computationally efficient route planning results for LO UCAV's penetration under multiple kinds of radar threats. Numerical test results based on F-16 uninhabited platform demonstrate the effectiveness of the proposed method.

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低可观测无人战斗飞行器的实时路线规划

下一代低可观测（LO）无人战斗飞行器（UCAV）具有高度自主性，可执行穿透任务，需要先进的方法来实时规划可飞行的安全路线（即尊重飞行器的物理能力和敌方防空雷达的威胁覆盖范围）。目前，LO UCAV 实时路线规划的主要挑战是如何在防空雷达的动态（弹出/移动）威胁下实现计算效率。本文提出了一种符合复杂穿透要求的实时规划范式，并将 LO UCAV 的穿透路线规划设计成一个完整的最优控制问题模型。本文首先设计了一种将最优控制问题转化为非线性编程（NLP）问题的直接方法，然后在移动规划视界下求解了所制定的 NLP 问题。所提出的方法可以给出在多种雷达威胁下，LO UCAV 穿透路线规划的高效计算结果。基于 F-16 无人平台的数值测试结果证明了所提方法的有效性。

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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来源期刊

Advanced Control for Applications

CiteScore

2.60

自引率

0.00%

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