Guidance, navigation, and control of an unmanned hovercraft

i Medicina Pub Date : 2013-06-25 DOI:10.1109/MED.2013.6608750
Kilsoo Kim, Young-Ki Lee, Sehwan Oh, David Moroniti, D. Mavris, G. Vachtsevanos, N. Papamarkos, G. Georgoulas
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引用次数: 2

Abstract

This paper introduces a simulation and evaluation of guidance, navigation, and control algorithms applied to an autonomous hovercraft. A line-of-sight guidance law is adopted in conjunction with a neural network based adaptive dynamic inversion control scheme for the underactuated hovercraft following a prescribed path. The simulation result demonstrates that the guidance and control scheme can be effective in waypoint following of the underactuated hovercraft, especially, when external disturbances exist. It is also shown that the error signals are bounded using Lyapunov's direct method.
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无人气垫船的引导、导航和控制
本文介绍了一种用于自主气垫船的制导、导航和控制算法的仿真与评估。针对欠驱动气垫船沿预定路径运动的问题,采用了视距制导律和基于神经网络的自适应动态逆控制方案。仿真结果表明,该制导控制方案对欠驱动气垫船的航点跟踪是有效的,特别是在存在外界干扰的情况下。用李亚普诺夫直接法证明了误差信号是有界的。
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i Medicina
i Medicina
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