基于微分几何的运动目标协调对峙跟踪

Zhi-qiang Song, Huaxiong Li, Chunlin Chen, Xianzhong Zhou, Feng Xu
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引用次数: 11

摘要

针对协调对峙跟踪问题,利用微分几何方法提出了一种针对运动目标的制导律。首先给出了无人机与目标之间的几何关系,得到了无人机与目标速度比大于1时的对峙跟踪的收敛解。然后,使用收敛解将UA引导到对峙跟踪几何上。我们通过在相关算法中加入导数项,提出了一种改进的制导律。为了保持多个ua的相位角差,我们在相关控制律中增加了二阶导数项。仿真结果验证了该方法的可行性和性能。该算法在距离和相位角差方面具有简单、稳定的特点,可以实现多个无人机的协调控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coordinated standoff tracking of moving targets using differential geometry
This research is concerned with coordinated standoff tracking, and a guidance law against a moving target is proposed by using differential geometry. We first present the geometry between the unmanned aircraft (UA) and the target to obtain the convergent solution of standoff tracking when the speed ratio of the UA to the target is larger than one. Then, the convergent solution is used to guide the UA onto the standoff tracking geometry. We propose an improved guidance law by adding a derivative term to the relevant algorithm. To keep the phase angle difference of multiple UAs, we add a second derivative term to the relevant control law. Simulations are done to demonstrate the feasibility and performance of the proposed approach. The proposed algorithm can achieve coordinated control of multiple UAs with its simplicity and stability in terms of the standoff distance and phase angle difference.
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