Zheping Yan, Bing Hao, Wei Zhang, and Simon X. Yang


  1. [1] K.H. Oh, J.Y. Kim, I.W. Park, et al., A study on the controlof AUV’s homing and docking, IEEE Conf. on Mechatronicsand Machine Vision in Practice, Chiang Mai, Thailand, 2002.
  2. [2] M.D. Feezor, F.Y. Sorrell, P.R. Blankinship, et al., Autonomousunderwater vehicle homing/docking via electromagnetic guid-ance, IEEE Journal of Oceanic Engineering, 26(4), 2001,515–521.
  3. [3] J.Y. Park, B.H. Jun, P.M. Lee, et al., Modified linear terminalguidance for docking and a time-varying ocean current observer,2011 IEEE Symposium on Underwater Technology (UT) and2011 Workshop on Scientific Use of Submarine Cables andRelated Technologies (SSC), IEEE, 2011, 1–6.
  4. [4] O. Yakimenko, D.P. Horner, and D.G. Pratt Jr., AUV ren-dezvous trajectories generation for underwater recovery, 200816th Mediterranean Conf. on Control and Automation, IEEE,2008, 1192–1197.
  5. [5] B. Sun, D. Zhu, and S.X. Yang, A bio-inspired cascadedapproach for three-dimensional tracking control of unmannedunderwater vehicles, International Journal of Robotics andAutomation, 29(4), 2014, 349–358.
  6. [6] D. Zhu, J. Liu, and S.X. Yang, Particle swarm optimiza-tion approach to thruster fault-tolerant control of unmannedunderwater vehicles, International Journal of Robotics andAutomation, 26(3), 2011, 282.
  7. [7] M. Shanmugavel, A. Tsourdos, B. White, et al., Co-operativepath planning of multiple UAVs using Dubins paths withclothoid arcs, Control Engineering Practice, 18(9), 2010,1084–1092.
  8. [8] C. Hanson, J. Richardson, and A. Girard, Path planning of aDubins vehicle for sequential target observation with rangedsensors, Proc. 2011 American Control Conf., San Francisco,CA, 2011, 1698–1703.
  9. [9] D.J. Grymin and A.L. Crassidis, Simplified model developmentand trajectory determination for a UAV using the Dubinsset, Proc. 2009 AIAA Atmospheric Flight Mechanics Conf.,Chicago, IL, 2009, 2009-6050.
  10. [10] S. Jeyaraman, et al., Formal techniques for the modelling andvalidation of a co-operating UAV team that uses Dubins set forpath planning, Proc. 2005 American Control Conf., Portland,OR, 2005, 4690–4695.
  11. [11] L.E. Dubins, On the curves of minimal length with a constrainton average curvature, and with prescribed initial and terminalpositions and tangents, American Journal of Mathematics,79(3), 1957, 497–516.
  12. [12] L. Lapierre and D. Soetanto, Nonlinear path following controlof an AUV, Ocean Engineering, 34(11–12), 2007, 1734–1744.
  13. [13] L. Lapierre, D. Soetanto, and A. Pascoal, Nonlinear pathfollowing with applications to the control of autonomous un-derwater vehicles, Proc. 42nd IEEE Conf. on Decision andControl, Maui, HI, 2003, 1256–1261.
  14. [14] S.N. Mugdha and N.S. Sahjendra, State-dependent Riccatiequation-based robust dive plane control of AUV with controlconstraints, Ocean Engineering, 34(11), Kyoto, Japan, 2007,1711–1723.
  15. [15] R. Amin, A.A. Khayyat, and K.G. Osgouie, Neural net-works modeling of autonomous underwater vehicle, 2010IEEE/ASME International Conf. on Mechatronics and Em-bedded Systems and Applications (MESA), Kyoto, Japan, 2010,14–19.
  16. [16] I. Astrov and A. Pedai, Multirate depth control of an AUV byneural network predictive controller for enhanced situationalawareness, ISCIII 2011 5th International Symposium on Com-putational Intelligence and Intelligent Informatics, Floriana,2011, 47–52.
  17. [17] K. Macek, R. Philippsen, and R. Siegwart, Path followingfor autonomous vehicle navigation with inherent safety anddynamics margin, Intelligent Vehicles Symposium, 6, June 4–62008, 108–113.
  18. [18] S.-R. Oh and J. Sun, Path following of under-actuated ma-rine surface vessels using line-of-sight based model predictivecontrol, Ocean Engineering, 37(2–3), 2010, 289–295.
  19. [19] D.R. Nelson, D.B. Barber, T.W. Mclain, et al., Vector fieldpath following for miniature air vehicles, IEEE Transactionson Robotics, 23(3), 2007, 519–529.
  20. [20] V.M. Gon¸calves, L.C.A. Pimenta, C. Maia, et al., Vector fieldsfor robot navigation along time-varying curves in-dimensions,IEEE Transactions on Robotics, 26(4), 2010, 647–659.
  21. [21] A.P. Aguiar, L. Cremean, and J.P. Hespanha, Position trackingfor a nonlinear underactuated hovercraft: Controller designand experimental results, Proc. 42nd IEEE Conf. on Decisionand Control, IEEE, 2003, 3858–3863.
  22. [22] S. LaValle, Rapidly-exploring random trees: A New Toolfor path planning, Technical Report 98-11, Computer ScienceDepartment, Iowa State University, 1998.

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