Research on double‐USVs fuzzy‐priority NSB behavior fusion formation control method for oil spill recovery

IF 4.2 2区 计算机科学 Q2 ROBOTICS
Congcong Chen, Yulei Liao, Xiaoyu Tang, Jiaqi Sun, Junlin Gu, Haohan Li, Zijia Ren, Zizheng Zhai, Ye Li, Bo Wang, Shuo Pang
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引用次数: 0

Abstract

Replacing manned ships with unmanned surface vehicle (USV) for oil spill containment can reduce the consumption of manpower and resources. This article studies the formation control method of dual USVs during the process of capturing oil spill, based on the engineering background of towing oil boom by dual USVs oil spill recovery system. To calculate the drag force of the oil boom acting on the USV, the shape of the oil boom is simplified into a catenary, the oil boom is modeled, and the hydrodynamic numerical simulation is carried out. To address the issue of “winding” phenomenon and “towing separation,” the formation behavior is designed when double USVs are towing oil fences to capture oil spill. In response to the problem of low task execution efficiency caused by fixed behavior priority in traditional null‐space‐based (NSB) behavior fusion methods, a fuzzy‐priority NSB (FNSB) behavior fusion formation method is proposed by combining fuzzy control with NSB behavior fusion method. In the FNSB behavior fusion formation control method, a smooth transition rule is introduced to make the behavior priority change, USVs can still maintain good formation performance, ensuring the smooth execution of oil spill recovery tasks. Simulation shows that FNSB behavior fusion formation method based on flexible transition rules can improve the rounding efficiency by 26.6% in the environment without obstacles and 37.2% in the environment with multiple obstacles compared with the NSB method. The effectiveness and practicality of this method have been verified through simulation experiments and field experiments on the “Dolphin” series of small USVs.
溢油回收双 USV 模糊优先 NSB 行为融合编队控制方法研究
用无人水面航行器(USV)代替载人船进行溢油围堵可以减少人力和资源的消耗。本文基于双 USV 捕捞溢油系统拖曳围油栏的工程背景,研究了双 USV 捕捞溢油过程中的编队控制方法。为了计算围油栏作用于 USV 的阻力,将围油栏的形状简化为导管形,建立围油栏模型,并进行流体力学数值模拟。针对 "缠绕 "现象和 "拖曳分离 "问题,设计了双 USV 拖曳围油栏捕捉溢油时的编队行为。针对传统空基(NSB)行为融合方法中固定行为优先级导致任务执行效率低的问题,将模糊控制与 NSB 行为融合方法相结合,提出了模糊优先级 NSB(FNSB)行为融合编队方法。在 FNSB 行为融合编队控制方法中,引入了平滑过渡规则,使行为优先级发生变化时,USV 仍能保持良好的编队性能,确保溢油回收任务的顺利执行。仿真表明,与 NSB 方法相比,基于柔性过渡规则的 FNSB 行为融合编队方法在无障碍环境下的绕航效率提高了 26.6%,在多障碍环境下提高了 37.2%。通过模拟实验和在 "海豚 "系列小型 USV 上的现场实验,验证了该方法的有效性和实用性。
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来源期刊
Journal of Field Robotics
Journal of Field Robotics 工程技术-机器人学
CiteScore
15.00
自引率
3.60%
发文量
80
审稿时长
6 months
期刊介绍: The Journal of Field Robotics seeks to promote scholarly publications dealing with the fundamentals of robotics in unstructured and dynamic environments. The Journal focuses on experimental robotics and encourages publication of work that has both theoretical and practical significance.
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