A Comprehensive Review on Reconfigurable Drones: Classification, Characteristics, Design and Control Technologies

S. H. Derrouaoui, Y. Bouzid, M. Guiatni, I. Dib
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引用次数: 23

Abstract

Recently, reconfigurable drones have gained particular attention in the field of automation and flying robots. Unlike the conventional drones, they are characterized by a variable mechanical structure in flight, geometric adaptability, aerial reconfiguration, high number of actuators and control inputs, and variable mathematical model. In addition, they are exploited to flight in more cluttered environments, avoid collisions with obstacles, transport and grab objects, cross narrow and small spaces, decrease different aerial damages, optimize the consumed energy, and improve agility and maneuverability in flight. Moreover, these new drones are considered as a viable solution to provide them with specific and additional functionalities. They are a promising solution in the near future, since they allow increasing considerably the capabilities and performance of classical drones in terms of multi-functionalities, geometric adaptation, design characteristics, consumed energy, control, maneuverability, agility, efficiency, obstacles avoidance, and fault tolerant control. This paper explores very interesting and recent research works, which include the classification, the main characteristics, the various applications, and the existing designs of this particular class of drones. Besides, an in-depth review of the applied control strategies will be presented. The links of the videos displaying the results of these researches will be also shown. A comparative study between the different types of flying vehicles will be established. Finally, several new challenges and future directions for reconfigurable drones will be discussed.
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可重构无人机的分类、特点、设计与控制技术综述
近年来,可重构无人机在自动化和飞行机器人领域备受关注。与传统无人机不同,它具有飞行机械结构可变、几何适应性强、空中可重构、执行器和控制输入数量多、数学模型可变等特点。此外,它们还可以在更杂乱的环境中飞行,避免碰撞障碍物,运输和抓取物体,穿越狭窄和狭小的空间,减少各种空中伤害,优化能量消耗,提高飞行的敏捷性和机动性。此外,这些新型无人机被认为是一种可行的解决方案,可以为它们提供特定和额外的功能。在不久的将来,它们是一个很有前途的解决方案,因为它们可以在多功能、几何适应性、设计特性、消耗能量、控制、机动性、敏捷性、效率、避障和容错控制方面大大提高传统无人机的能力和性能。本文探讨了非常有趣的和最近的研究工作,其中包括分类,主要特点,各种应用,以及现有的这类无人机的设计。此外,还将对应用的控制策略进行深入的回顾。还将显示显示这些研究结果的视频链接。将建立不同类型飞行器之间的比较研究。最后,将讨论可重构无人机的几个新挑战和未来方向。
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