Underactuated unmanned surface vehicles formation of obstacle avoidance and assembly: A disturbed fluid-based solution

Yiping Liu, Jianqiang Zhang, B. Sui, Yuanyuan Zhang
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Abstract

Unmanned surface vehicles (USVs) are highly manoeuvrable and autonomous, and hold significant potential for both military and civilian applications, particularly in formation operations. However, because of their underactuated nature, USVs struggle to navigate in complex maritime conditions during formation. At present, most of the technology is devoted to Unmanned Areial Vehicles and ground robots; these methods cannot be well applied to underactuated USVs. Moreover, the rationality of local path planning decision-making for underactuated USVs formation is still lacking. This study proposes an interfered fluid dynamic system (IFDS)-based local path planning method, called USV-IFDS, specifically designed for the formation of underactuated USVs. This method incorporates the IFDS obstacle avoidance approach, while adapting it through modifications and the inclusion of the kinematic constraints of USVs, thereby enhancing its applicability to the maritime environment. By decomposing the flow field velocity vector and implementing a formation control strategy, we effectively address the challenges in forming underactuated USVs and enhance the efficiency of USV formation local path planning. The proposed formation technique is predicated on the highly robust virtual structure method. Simulations of formation local path planning indicate that our method produces smooth paths, therefore validating its practical applicability to underactuated USV formations.
欠驱动无人水面飞行器的避障和装配编队:基于扰动流体的解决方案
无人水面航行器(USV)具有高度机动性和自主性,在军事和民用领域都具有巨大的应用潜力,尤其是在编队行动中。然而,由于其驱动力不足的特性,无人水面飞行器在编队时很难在复杂的海洋条件下航行。目前,大部分技术都用于无人飞行器和地面机器人;这些方法不能很好地应用于动力不足的 USV。此外,欠驱动 USV 编队的局部路径规划决策的合理性仍然缺乏。本研究提出了一种基于干扰流体动力系统(IFDS)的局部路径规划方法,称为 USV-IFDS,专门用于欠驱动 USV 的编队。该方法结合了 IFDS 避障方法,同时通过修改和加入 USV 的运动学约束对其进行了调整,从而增强了其在海洋环境中的适用性。通过分解流场速度矢量和实施编队控制策略,我们有效地解决了动力不足 USV 编队的难题,并提高了 USV 编队局部路径规划的效率。所提出的编队技术基于高鲁棒性的虚拟结构方法。编队局部路径规划的仿真表明,我们的方法能产生平滑的路径,因此验证了其在欠驱动 USV 编队中的实际适用性。
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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