Control System Mathematical Model Design of Ornithopter Flapping Wing Unmanned Air Vehicle for Agile Performance

Zarrar Haider, M. M. Zohaib, H. H. Mahmood, M. Pirzada
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引用次数: 1

Abstract

In recent unmanned air vehicle technologies, flapping wing ornithopter have become interest of commercial companies and researchers of many top ranked firms working on robotics due to agility, propulsive efficiency and capability of flying at low speed with low noise at high speed. Flapping wing air vehicles, due to their key utilization in military, commercial purposes like spying, surveillance, smart search operations and scaring the birds away from the airports, are being explored and advancement is being done in many research firms and control systems lab. In this paper, control system mathematical model. which includes the height, yaw, roll and pitch equations has been developed. Nonlinear equations, linearization and control system matrix formation has been included in the research. In order to apply the control system algorithm practically on the ornithopter, test benches were manufactured and controller were applied for stabilization of the flapping wing unmanned air vehicle. Algorithms and hardware controlling the flapping wing air vehicle are encompassed in this research with high end ground control station developed in LabVIEW software.
扑翼扑翼无人机敏捷性能控制系统数学模型设计
在最近的无人飞行器技术中,扑翼扑翼机由于其敏捷性、推进效率和高速低噪音的低速飞行能力,已经成为商业公司和许多顶尖机器人公司研究人员的兴趣。扑翼飞行器,由于其在军事、商业目的中的关键用途,如间谍、监视、智能搜索操作和吓跑机场的鸟类,正在许多研究公司和控制系统实验室进行探索和改进。本文建立了控制系统的数学模型。其中包括高度、偏航、横摇和俯仰方程。非线性方程、线性化和控制系统矩阵的形成已纳入研究。为了将控制系统算法实际应用于扑翼无人机,制作了试验台,并将控制器应用于扑翼无人机的稳定。本课题主要研究扑翼飞行器的控制算法和硬件,并利用LabVIEW软件开发高端地面控制站。
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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