Path Following Control of A Deep-Sea Manned Submersible Based upon NTSM 被引量：7

Path Following Control of A Deep-Sea Manned Submersible Based upon NTSM

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摘要 In this paper, a robust path following control law is proposed for a deep-sea manned submersible maneuvering along a predeterminated path. Developed in China, the submersible is underactuated in the horizontal plane in that it is actuated by two perpendicular thrusts in this plane. The advanced non-singular terminal sliding mode （NTSM） is implemented for the design of the path following controller, which can ensure the convergence of the motion system in finite time and improve its robustness against parametric uncertainties and environmental disturbances. In the process of controller design, the close-loop stability is considered and proved by Lyapunov＇ s stability theory. With the experimental data, numerical simulations are provided to verify the control law for path following of the deep-sea manned submersible. In this paper, a robust path following control law is proposed for a deep-sea manned submersible maneuvering along a predeterminated path. Developed in China, the submersible is underactuated in the horizontal plane in that it is actuated by two perpendicular thrusts in this plane. The advanced non-singular terminal sliding mode （NTSM） is implemented for the design of the path following controller, which can ensure the convergence of the motion system in finite time and improve its robustness against parametric uncertainties and environmental disturbances. In the process of controller design, the close-loop stability is considered and proved by Lyapunov＇ s stability theory. With the experimental data, numerical simulations are provided to verify the control law for path following of the deep-sea manned submersible.

作者马岭崔维成

机构地区 School of Naval Architecture China Ship Scientific Research Center

出处《China Ocean Engineering》 SCIE EI 2005年第4期625-636,共12页 中国海洋工程（英文版）

基金 The paper was financially supported by the National High Technology Research and Development Programof China(863 Program) (Grant No.2002AA401002)

关键词 path following deep-sea manned submersible terminal sliding mode control ROBUSTNESS path following deep-sea manned submersible terminal sliding mode control robustness

分类号 P754.3 [天文地球—海洋科学]

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参考文献19

1[1]Aicardi,M.,Casalino,G.,Indiveri,G.,Aguiar,A.,Encarnacāo,P.and Pascoal,A.,2001.A planar path following controller for underactuated marine vehicles,9th IEEE Mediterranean Conference on Control and Automation,IEEE MED01,Dubrovnik,Croatia,June,27～29.
2[2]Cristi,R.,Papoulias,F.A.and Healey,A.,1990.Adaptive sliding mode control of autonomous underwater vehicles in the dive plane,IEEE Journal of Oceanic Engineering,15(3):152～160.
3[3]Do,K.D.and Pan,J.,2004.State-and output-feedback robust path-following controllers for underactuated ships using Serret-Frenet frame,Ocean Engineering,31,587～613.
4[4]Do,K.D.,Jiang,Z.P.and Pan,J.,2004.Robust adaptive path following of underactuated ships,Automatica,40(6):929～944.
5[5]Encarnacao,P.and Pascoal,A.,2000.3D Path following for autonomous underwater vehicle,Proceedings of 39th IEEE Conference on Decision and Control CDC' 2000,Sydney,Australia,2977～2982.
6[6]Feng,Y.,Yu,X.and Man,Z.,2002.Non-singular terminal sliding mode control of rigid manipulators.Automatica,38(12):2159～2167.
7[7]Gao,W.B.and Hung,J.C.,1993.Variable structure control of nonlinear systems:a new approach,IEEE Transactions on industrial electronics,40,45～55.
8[8]Healey,A.and Lienard,D.,1993.Multivariable sliding-mode control for autonomous diving and steering of unmanned underwater vehicles.IEEE Journal of Oceanic Engineering,18(3):327～339.
9[9]Lapierre,L.,Soetanto,D.and Pascoal,A.,2003.Nonlinear path following with applications to the control of autonomous underwater vehicles,Proceedings of the 42th IEEE Conference on Decision and Control CDC' 2003,Maui,Hawaii,USA,1256～1261.
10[10]Man,Z.,Paplinski,A.P.and Wu,H.,1994.A robust MIMO terminal sliding mode control scheme for rigid robotic manipulators,IEEE Transactions on Automatic Control,39(12):2464～2469.

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1刘蔚,崔维成.多学科设计优化:载人潜水器设计的一种新工具(英文)[J].船舶力学,2004,8(6):95-112. 被引量：22
2马岭,崔维成.载人潜水器水平面动力学模型系统辨识[J].中国造船,2006,47(2):76-81. 被引量：7
3胡勇,崔维成,刘涛.大深度载人潜水器钛合金框架试验研究[J].船舶力学,2006,10(2):73-81. 被引量：8
4马岭,崔维成.大深度载人潜水器低速大漂角模糊滑模航向控制研究[J].海洋工程,2006,24(3):74-78. 被引量：4
5胡勇,赵俊海,刘涛,崔维成.大深度载人潜水器上的复合材料轻外壳结构设计研究[J].中国造船,2007,48(1):51-57. 被引量：3
6王自力,王仁华,俞铭华,李良碧.初始缺陷对不同深度载人潜水器耐压球壳极限承载力的影响[J].中国造船,2007,48(2):45-50. 被引量：16
7罗伟林,邹早建.Neural Network Based Robust Controller for Trajectory Tracking of Underwater Vehicles[J].China Ocean Engineering,2007,21(2):281-292. 被引量：7
8Do K D, JIANG Z P, PAN J. Robust adaptive path following of underactuated ships [C] //Proceedings of the 41st IEEE Conference on Decision and Control. Las Vegas, Nevada USA: IEEE, 2002: 3243-3248.
9ZHANG R J, CHEN Y B, SUN Z Q, et al. Path control of a surface ship in restricted waters using slid- ing mode [J]. IEEE Transactions on Control Systems Technology, 2000, 8(4): 722-732.
10PETTERSEN K Y, LEFEBER E. Way-point tracking control of ships [C] //Proceedings of the 40th IEEE Conference on Decision and Control. Orlando, Florida, USA: IEEE, 2001: 940-945.

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2王晓飞,邹早建,王洋,李铁山.Path Following Control of Underactuated Ships Based on Unscented Kalman Filter[J].Journal of Shanghai Jiaotong university(Science),2010,15(1):108-113. 被引量：2
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8陈经跃,刘银水,吴德发,毛旭耀,江涛.潜水器海水液压浮力调节系统的研制[J].液压与气动,2012,36(1):79-83. 被引量：13
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10高莉.以读为本寓教于乐——《小山羊》教材简析与设计[J].小学语文教学,2000(7):77-78.

1CAS Technology Propels China's DeepDiving Submersible[J].Bulletin of the Chinese Academy of Sciences,2011,25(4):242-245.
2China's Manned Submersible and Deep-sea Exploration Technologies Will Achieve Leapfrog Development[J].Bulletin of the Chinese Academy of Sciences,2014,28(1):101-103.
3文玉.植树造林应对气候变化[J].国土绿化,2009(11):7-7. 被引量：2
4张智魁.当前我国海底工程和潜水技术需要着重解决的问题[J].海洋与海岸带开发,1991,8(1):2-6.
5Hao Ziguo,Fei Hongcai,Liu Lian,Susan Turner.Metallic Reserves of Submarine Manganese Nodules to be Estimated and Harnessed Prudently: Evidence from China's Jiaolong Manned Submersible[J].Acta Geologica Sinica(English Edition),2013,87(4):1179-1180.
6王斌.Thrusts and Prospects on Understanding and Predicting Asian Monsoon Climate[J].Acta meteorologica Sinica,2008,22(4):383-403.
7staff reporter ZHAO YAYUAN.Targeting a 7,000-meter Dive[J].China Today,2010,59(12):58-59.
8Huang, GL,Lin, TW,Yan, NC.A Study on the Maneuvering Motion of a Low Speed Submersible[J].China Ocean Engineering,1997,12(4):457-466.
9陈宝松.第七届全国水下工程和潜水技术学术讨论会在上海举行[J].海洋工程,1990,8(1):95-95.
10王志广.什么是饱和潜水[J].宁夏教育,2010(10).

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Path Following Control of A Deep-Sea Manned Submersible Based upon NTSM 被引量：7

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