W. Liu,∗,∗∗ L. Gao,∗,∗∗ Y. Ding,∗ J. Xu,∗ and Y. Ji∗


  1. [1] M. Sibenac, W.J. Kirkwood, R. McEwen, P. Shane, R. Hen-thorn, D. Gashler, & H. Thomas, Modular AUV for rou-tine deep water science operations, IEEE Oceans Conference,Mississippi, CA, 2002, 167–172.
  2. [2] G. Leen, D. Heffernan, & A. Dunne, Digital networks inthe automotive vehicle, Computing and Control EngineeringJournal, 10 (6), 1999, 257–266.
  3. [3] E. Kobayashi, T. Aoki, T. Maeda, K. Hirokawa, T. Ichikawa,S. Miyamoto, S. Iwasaki, & H. Kobayashi, Development andapplication of an AUV maneuvering and control system simu-lator, Proc. Int. Offshore and Polar Engineering Conference,Kitakyushu, Japan, 2002, 307–314.
  4. [4] J. Proenza, A. Ortiz, G. Bernat, & G. Oliver, A cost-effectivehardware architecture for fail-safe autonomous underwatervehicles, 6th IEEE Int. Conf. on Electronics, Circuits andSystems, Paphos, Cyprus, 1999, 1487–1490.
  5. [5] J. Liu, K.Z. Liu, & X.S. Feng, Electronic chart based oceanenvironment development method and its application in dig-ital AUV platform, Proc. 2004 Int. Symp. on UnderwaterTechnology, Taipei, Taiwan, 2004, 423–429.
  6. [6] I. Florin, B. Frede et al., A new simulation platform tomodel, optimize and design wind turbines, IECON Proceedings,Sevilla, Spain, 2002, 561–566.
  7. [7] D.J. Stilwell, A.S. Gadre, C.A. Sylvester, & C.J. Cannell,Design elements of a small low-cost autonomous underwa-ter vehicle for field experiments in multi-vehicle coordina-tion,IEEE/OES Autonomous Underwater Vehicles Conference,Sebasco, ME, 2004, 1–6.
  8. [8] C.E. Wick & D.J. Stilwell, USNA-1: A miniature, low-costautonomous underwater vehicle: Designed to support one-waymissions and provide an academic platform for navigation,sensor and AUV employment research, Sea Technology, 43 (6),2002, 17–25.
  9. [9] A.M. Casas & A.B. Cruz, Platform for experimentation withtele-robotics’ systems, Proc. 2002 IEEE/RSJ Int. Conf. onIntelligent Robots and Systems EPFL, Lausanne, Switzerland,2002, 1632–1637.
  10. [10] Z.Y. Tang, Z.L. Wang, & L.H. Qiu, Research on the CAN bus-based simulation platform of novel redundant flight control sys-tem, 5th Int. Symp. Instrumentation and Control Technology,Beijing, China, 2003, 823–830.
  11. [11] L.M. Pinho & F. Vasques, Reliable real-time communicationin CAN networks, IEEE Transactions on Computers, 52 (12),2003, 1594–1607.
  12. [12] P.C. Richardson, A. Elkateeb, & L. Sieh, An adaptive real-timeintravehicle network protocol for intelligent vehicle systems,IEEE Transactions on Vehicular Technology, 53 (5), 2004,1594–1606.
  13. [13] F. Song & A. Folleco, High fidelity hardware-in-the-loop sim-ulation development for an autonomous underwater vehicle,Oceans 2001 MTS/IEEE – An Ocean Odyssey, Honolulu, HI,2001, 444–449.
  14. [14] D.B. Marco & A.J. Healey, Command, control, and navigationexperimental results with the NPS ARIES AUV, IEEE Journalof Oceanic Engineering, 26 (4), 2001, 466–476.
  15. [15] G. Chakraborty, Genetic algorithm to solve optimum TDMAtransmission schedule in broadcast packet radio networks,IEEE Transactions on Communications, 52 (5), 2004, 765–777.
  16. [16] S. Ghosh, B.P. Sinha, & N. Das, Channel assignment us-ing genetic algorithm based on geometric symmetry, IEEETransactions on Vehicular Technology, 52 (4), 2003, 860–875.
  17. [17] X.G. Wu & D.M. Xu, Dynamic model of autonomous under-water vehicle: Model and parameter estimation (Xi’an, China:Northwestern Polytechnical University Press, 1998).

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