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欠驱动自主水面船的非线性路径跟踪控制 被引量:15

Non-linear Path Following Control of Underactuated Autonomous Surface Vehicles
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摘要 基于级联方法提出一种欠驱动自主水面船的全局K指数稳定路径跟踪控制算法.采用以自由路径参考点为原点的Serret-Frenet坐标系建立路径跟踪误差的动态模型,以路径参数的变化率为附加控制输入,克服了以正交投影点为坐标原点时的奇异值问题.设计路径跟踪航向角指令,将路径跟踪模型分解为位置跟踪子系统和航向角、前向速度跟踪子系统两个子系统级联的形式,设计航向角和前向速度的全局指数稳定跟踪控制器,应用级联系统理论证明了路径跟踪误差的全局K指数稳定性.数学仿真和自主水面船湖上实验结果验证了该路径跟踪控制算法的有效性. The globally KS-exponentially stable path following control of an underactuated autonomous surface vehicle (ASV) is proposed based on the cascaded approach. The dynamics model of the ASV path following errors is derived utilizing the Serret-Frenet coordinate originated at the free path reference point, which creates an added control input, i.e., the change rate of the path parameter, to avoid the singularity problem when adopting the coordinate originating at the orthogonal projection point. The path following reference yaw is designed, and the whole path following model is decomposed into two cascaded sub-models, named the position tracking sub-model and the yaw angle and surge velocity tracking sub-model. The global KS-exponential stability of the path following errors is proved using the cascaded system theory with the globally exponentially stable yaw angle and surge velocity tracking controllers. The results of the mathematic simulations and the lake trials of a real ASV demonstrate the performance of the proposed path following control algorithm.
作者 高剑 刘富樯 赵江 严卫生
机构地区 西北工业大学航海学院
出处 《机器人》 EI CSCD 北大核心 2012年第3期329-336,共8页 Robot
基金 国家自然科学基金资助项目(50909082) 西北工业大学翱翔之星计划资助项目
关键词 自主水面船 欠驱动 路径跟踪控制 级联方法 autonomous surface vehicle underactuated path following control cascaded approach
分类号 TP24 [自动化与计算机技术—检测技术与自动化装置]
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参考文献10

  • 1郭晨,汪洋,孙富春,沈智鹏.欠驱动水面船舶运动控制研究综述[J].控制与决策,2009,24(3):321-329. 被引量:67
  • 2Do K D, Pan J, State- and output-feedback robust path- following controllers for underactuated ships using Serret- Frenet frame[J]. Ocean Engineering, 2004, 31 (5/6): 587-613.
  • 3Lapierre L, Soetanto D, Pascoal A. Nonlinear path following with applications to the control of autonomous underwater ve- hicles[C]//42nd IEEE Conference on Decision and Control. Pis- cataway, NJ, USA: IEEE, 2003: 1256-1261.
  • 4Lapierre L, Jouvencel B. Robust nonlinear path-following con- trol of an AUV[J], IEEE Journal of Oceanic Engineering, 2008, 33(2): 89-102.
  • 5Breivik M, Fossen T I. Guidance laws for planar motion con- trol[C]//47th IEEE Conference on Decision and Control. Pis- cataway, NJ, USA: IEEE, 2008: 570-577.
  • 6Maurya P, Aguiar A P, Pascoal A M. Marine vehicle path fol- lowing using inner-outer loop control[C]//8th IFAC Interna- tional Conference on Manoeuvring and Control of Marine Craft. Kidlington, UK: Elsevier Science, 2009.
  • 7Panteley E, Lorfa A. On global uniform asymptotic stability of non linear time-varying systems in cascade[J]. Systems and Control Letters, 1998, 33(2): 131-138.
  • 8Lorfa A, Panteley E. Cascaded nonlinear time-varying systems: Analysis and design[M]//Lecture Notes in Control and Infor- mation Sciences, vol.311. Berlin, Germany: Springer-Verlag, 2005.
  • 9Fossen Thor I. Marine control systems: Guidance, navigation and control of ships, rigs and underwater vehicles[M]. Trond- heim, Norway: Marine Cybernetics, 2002.
  • 10Sveen D A. Robust and adaptive tracking control of surface ves- sel for synchronization with an ROV: Practical implementation on Cybership II[D]. Trondheim, Norway: Norwegian Univer- sity of Science and Technology, 2003.

二级参考文献48

  • 1李铁山,杨盐生,郑云峰.不完全驱动船舶航迹控制输入输出线性化设计[J].系统工程与电子技术,2004,26(7):945-948. 被引量:27
  • 2韩冰,赵国良.基于微分平滑的欠驱动船舶航迹控制[J].哈尔滨工程大学学报,2004,25(6):709-713. 被引量:15
  • 3赵国良,韩冰.欠驱动船舶的光滑时变指数镇定[J].控制理论与应用,2006,23(5):787-790. 被引量:13
  • 4周岗,姚琼荟,陈永冰,周永余,李文魁.不完全驱动船舶直线航迹控制稳定性研究[J].自动化学报,2007,33(4):378-384. 被引量:27
  • 5So-Ryeok Oh, Kaustubh Pathak, Sunil K Agrawal, et al. Approaches for a tether-guided landing of an autonomous helicopter [J]. IEEE Trans on Robotics, 2006, 22(3): 536-544.
  • 6Do K D, Pan J. Robust and adaptive path following for underactuated autonomous underwater vehicles [ C]. Proc ACC. Denver, 2003: 1994-1999.
  • 7Mahmut Reyhanoglu. Control and stabilization of an underactuated surface vessel[C]. Proc of 35th Conf on Decision and Control. Kobe, 1996: 2371-2376.
  • 8Jin Cheng, Jianqiang Yi, Dongbin Zhao. Stabilization of an underactuated surface vessel via discontinuous control [C]. Proc ACC. New York, 2007: 206-211.
  • 9Pettersen K Y, Egeland O. Exponential stabilization of an underactuated surface vessel[C]. Proc 35th Conf on Decision and Control. Kobe, 1996: 967-972.
  • 10Kristin Y Pettersen, Thor I Fossen. Underactuated dynamic positioning of a ship-experimental results [J]. IEEE Trans on Control Systems Technology, 2000, 8 (5) : 856-863.

共引文献66

同被引文献141

引证文献15

二级引证文献113

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2012年 第3期

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