A Novel Quadcopter with A Tilting Frame using Parallel Link Mechanism

2019 International Conference on Unmanned Aircraft Systems (ICUAS) Pub Date : 2019-06-01 DOI:10.1109/ICUAS.2019.8797934

Akinori Sakaguchi, T. Takimoto, T. Ushio

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引用次数: 10

Abstract

This paper is concerned with a novel quadcopter with a tilting capability using a parallel link mechanism. The proposed quadcopter consists of the tilting frame and a main body, and an angle between them is called a tilt angle. A ratio of the current width to the maximum one of the quadcopter is called a folding ratio. Using only one servo motor, it can tilt in the pitch direction and be folded vertically within a user-specified ranges of the tilt angle and the folding ratio, respectively. We show a procedure of determining design parameters of the tilting frame to satisfy specifications given by the user. Due to the tilting mechanism of the frame, the proposed quadcopter is not well-controlled as the tilt angle approaches $\pm\pi/2$. Therefore, we focus on a stabilization problem of the quadcopter at a desired tilt angle specified by a user around $\pm\pi/2$ and propose a novel reference tilt angle generator based on the pitch angle. In simulations, we show an effectiveness of the proposed strategy for the reference tilt angle by comparing it with a conventional PID controller under the existence of a disturbance.

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一种采用并联连杆机构的新型可倾架四轴飞行器

本文研究了一种采用并联连杆机构的具有倾斜能力的新型四轴飞行器。提出的四轴飞行器由倾斜框架和主体组成，它们之间的角度称为倾斜角。当前宽度与四轴飞行器的最大宽度之比称为折叠比。仅使用一个伺服电机，它可以在俯仰方向倾斜，并在用户指定的倾斜角度和折叠比例范围内垂直折叠。我们展示了一个程序，确定设计参数的倾斜框架，以满足用户给出的规格。由于框架的倾斜机制，当倾斜角度接近$\pm\pi/2$时，所提出的四轴飞行器不能很好地控制。因此，我们专注于四轴飞行器在用户指定的$\pm\pi/2$左右所需倾斜角下的稳定问题，并提出了一种基于俯仰角的新型参考倾斜角发生器。在仿真中，我们通过与传统PID控制器在存在干扰的情况下进行比较，证明了所提策略对参考倾斜角的有效性。

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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2019 International Conference on Unmanned Aircraft Systems (ICUAS)

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