Shulin Feng, Wei Wang, and Huanshui Zhang


  1. [1] F. Tyan, Capture region of a GIPN guidance law for missileand target with bounded maneuverability, IEEE Transactions.on Aerospace and Electronic Systems, 47 (1), 2011, 201–213.
  2. [2] Y. Tian, Y. Li, and Z. Ren, Vision-based adaptive guidancelaw for intercepting a maneuvering target, IET Control Theoryand Applications, 5 (3), 2011, 421–428.
  3. [3] S. Gutman and O. Goldan, 3D differential game guidance,Applied Mathematics and Computation, 217 (3), 2010, 1077–1084.
  4. [4] C.H. Lee, T.H. Kim, M.J. Tahk, and K.S. Kim, Design ofguidance law for passive homing missile using sliding modecontrol, Int. Conf. on Control, Automation and Systems,Gyeonggi-do, Korea, 2010, 2380–2385.
  5. [5] Z.D. Hu, X.M. Tang, and Y.P. Wang, A 3-dimensional robustguidance law with impact angle constraint, Chinese Controland Decision Conf., Mianyang, China, 2011, 999–1006.
  6. [6] J.Y. Yu, Q.J. Xu, and Y. Zhi, A self-adaptive region fuzzyguidance law based on RBF neural network for attackingUAV, 3rd Int. Conf. on Computer Research and Development,Shanghai, China, 2011, 426–430.
  7. [7] Z. Wang, P. Goldsmith, and J. Gu, Adaptive trajectory trackingcontrol for Euler-Lagrange systems with application to robotmanipulators, Control and Intelligent Systems, 37 (1), 2009,46–56.
  8. [8] C. Cocaud and A. Jnifene, Environment mapping using prob-abilistic quadtree for the guidance and control of autonomousmobile robots, Control and Intelligent Systems, 39 (4), 2011,197–203.
  9. [9] S.N. Ghawghawe and D. Ghose, Pure proportional navigationagainst time-varying target manoeuvres, IEEE Transactionson Aerospace and Electronic Systems, 32 (4), 1996, 1336–1347.
  10. [10] K. Alkharabsheh, W.D. Xiao, F. Lewis, and M. Manry, Tar-get tracking and interception in wireless sensor networks withcompensation of communication delay, 6th Int. Conf. on In-formation, Communications and Signal Processing, Universityof Texas at Arlington, Arlington, TX, 2007, 1–5.
  11. [11] F. Belkhouche and B. Belkhouche, A control strategy fortracking interception of moving objects using wheeled mobilerobots, 43rd IEEE Conf. on Decision and Control, Atlantis,Paradise Island, Bahamas, 2004, 2129–2130.
  12. [12] D.Q. Shi, E.G. Collins, and D. Dunlap, Robot navigation incluttered 3-D environments using preference-based fuzzy be-haviors, IEEE Transactions on Systems, Man, and Cybernet-ics, Part B: Cybernetics, 37 (6), 2007, 1486–1499.
  13. [13] A. Soloviev and M.U. De Haag, Three-dimensional navigationwith scanning ladars: Concept and initial verification, IEEETransactions on Aerospace and Electronic Systems, 46 (1),2010, 14–31.
  14. [14] G. Galben, New three-dimensional velocity motion modeland composite odometry–Cinertial motion model for local au-tonomous navigation, IEEE Transactions on Vehicular Tech-nology, 60 (3), 2011, 771–781.
  15. [15] F. Belkhouche and B. Bendjilali, Reactive path planning for 3-Dautonomous vehicles, IEEE Transactions on Control SystemsTechnology, 20 (1), 2012, 249–256.
  16. [16] N.A. Shneydor, Missile guidance and pursuit: Kinematicsdynamics and control (Chichester: Horwood Publishing, 1998).
  17. [17] P. Zarchan, Tactical and strategic missile guidance, Progress inAstronautics and Aeronautics, 176 (Washington D.C.: AIAA,1997).
  18. [18] G.T. Lee and J.G. Lee, Improved command to line-of-sightfor homing guidance, IEEE Transactions on Aerospace andElectronic Systems, 31 (1), 1995, 506–510.
  19. [19] F. Belkhouche, B. Belkhouche, and P. Rastgoufard, A linearizedmodel for the line of sight guidance, Position Location andNavigation Symposium, Monterey, CA, United States, 2004,201–207.
  20. [20] F. Belkhouche, B. Belkhouche, and P. Rastgoufard, Line of sightrobot navigation toward a moving goal, IEEE Transactions onSystems, Man, and Cybernetics, Part B: Cybernetics, 36 (2),2006, 255–267.40
  21. [21] S.H. Jalali-Naini and V. Esfahanian, Solution of three-dimensional line-of-sight guidance with a moving tracker,Scientia Iranica, 11 (1 and 2), 2004, 138–145.
  22. [22] S.H. Song and I.J. Ha, A Lyapunov-like approach to perfor-mance analysis of 3-dimensional pure PNG laws, IEEE Trans-actions on Aerospace and Electronic Systems, 30 (1), 1994,238–248.
  23. [23] W.W. Li and C.S. Jiang, Augmented proportional navigationguidance law for BTT missile, Electronics Optics and Control,15 (10), 2008, 16–21.
  24. [24] Y.M. Kim and J.H. Seo, The realization of the three dimen-sional guidance law using modified augmented proportionalnavigation, Proc. of the 35th IEEE Conf. on Decision andControl, Kobe, Japan, 1996, 2707–2712.
  25. [25] C.X. Li, J. Guo, and X.S. Li, Study on three-dimensional PPNwith impact angle constraints, Electronics Optics and Control,16 (5), 2009, 9–12.
  26. [26] D. Kim and J. Kim, A real-time limit-cycle navigation methodfor fast mobile robots and its application to robot soccer,Robotics and Autonomous Systems, 42, 2003, 17–30.

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