Tamas Szepe and Samy F.M. Assal


  1. [1] C. Louste and A. Liegeois, Path planning for non-holonomic vehicles: A potential viscous fluid field method, Robotica, 20, 2002, 291–298.
  2. [2] J. Borenstein and Y. Koren, The vector field histogram – fast obstacle avoidance for mobile robots, IEEE Transactions on Robotics and Automation, 7(3), 1991, 278–288.
  3. [3] D. Fox, W. Burgard, and S. Thrun, The dynamic window approach to collision avoidance, IEEE Robotics and Automation Magazine, 4(1), 1997, 23–33.
  4. [4] A. Stentz and I.C. Mellon, Optimal and efficient path planning for unknown and dynamic environments, International Journal of Robotics and Automation, 10(3), 1995, 89–100.
  5. [5] S. Aydin and H. Temeltas, Fuzzy-differential evolution algorithm for planning time-optimal trajectories of a unicycle mobile robot on a predefined path, Advanced Robotics, 18(7), 2004, 725–748.
  6. [6] I. Waheed and R. Fotouhi, Trajectory and temporal planning of a wheeled mobile robot on an uneven surface, Robotica, 27(4), 2009, 481–498.
  7. [7] J. Thomas, A. Blair, and N. Barnes, Towards an efficient optimal trajectory planner for multiple mobile robots, Proceedings on IEEE/RSJ International Conference on Intelligent Robots and Systems, 3, 2003, 2291–2296.
  8. [8] R.W. Brockett, Asymptotic stability and feedback stabilization, in R.W. Brockett, R.S. Millman, and H.J. Sussmann (eds.), Differential geometric control theory (Boston, MA: Birkhauser, 1983), 181–191.
  9. [9] C. Samson, Time-varying feedback stabilization of car-like wheeled mobile robots, International Journal of Robotics Research, 12(1), 1993, 55–64.
  10. [10] C. Canudas de Wit and O.J. Sordalen, Exponential stabilization of mobile robots with nonholonomic constraints, IEEE Transactions on Automatic Control, 37, 1992, 1791–1797.
  11. [11] P. Morin and C. Samson, Practical stabilization of a class of nonlinear systems: Application to chain systems and mobile robots, Proc. 39th IEEE Conf. Decision Control, Sydney, Australia, 2000, 2144–2150.
  12. [12] G. Oriolo, A. De Luca, and M. Vandittelli, WMR control via dynamic feedback linearization: Design, implementation, and experimental validation, IEEE Transactions on Control Systems Technology, 10(6), 2002, 835–852.
  13. [13] Y. Kanayama, Y. Kimura, F. Miyazaki, and T. Noguchi,A stable tracking control method for an autonomous mobilerobot, Proceedings of the IEEE International Conference on Robotics and Automation, 1, 1990, 384–389.
  14. [14] A. De Luca, G. Oriolo, and M. Vendittelli, Control of wheeled mobile robots: An experimental overview, in S. Nicosia, B. Siciliano, A. Bicchi, and P. Valigi (eds.) RAMSETE-Articulated and Mobile Robotics for Services and Technologies (London, UK: Springer-Verlag, 2001, vol. 270).
  15. [15] A. De Luca and M.D.D. Benedetto, Control of nonholonomic systems via dynamic compensation, Kybernetika, 29(6), 1993, 539–808.
  16. [16] F. Kuhne, W.F. Lages, and J.M.G. Silva Jr, Model predictive control of a mobile robot using linearization, Proc. Mechatronics and Robot, Aachen, Germany, 2004, 525–530. ISBN: 3-938153-30-X
  17. [17] O. Amidi, Integrated mobile robot control, Report CMURI-TR-90-17, Robotics Institute, Carnegie Mellon University, Pittsburgh, PA, USA, May 1990.
  18. [18] A. Ollero, A. García-Cerezo, and J. Martínez, Model fuzzy supervisory path tracking of mobile robots, Control Engineering Practice, 2 (2), 1994, 313–319.
  19. [19] S. Singh and D.H. Shin, Position based path tracking for wheeled mobile robots, Proc. IEEE/RSJ International Workshop on Intelligent Robot Systems, Tsukuba, Japan, 1989, 386–391.
  20. [20] A. Ollero and G. Heredia, Stability analysis of mobile robot path tracking, Proceedings IEEE/RSJ International Conference on Intelligent Robots and Systems, 3, 1995, 461–466.
  21. [21] F. Golnaraghi and B.C. Kuo, Automatic control systems, 9th ed. (USA: Wiley, 2009), ISBN 978-0-470-04896-2.
  22. [22] W. Yu, O. Chuy, E.G. Collins, and P. Hollis, Analysis and experimental verification for dynamic modeling of a skid-steered wheeled vehicle, IEEE Transactions on Robotics, 26(2), April 2010, 340–353.
  23. [23] S. Ahmed, M.N. Karsiti, and R.N.K Loh, Control Analysis and Feedback Techniques fro Multi Agent Robots, MultiAgent Systems, 103–128, In-Teh, I-Tech Education and Publishing KG, Vienna, Austria, Printed in Croatia 2009.
  24. [24] M. Brezak, I. Petrovic, and N. Peric, Experimental comparison of trajectory tracking algorithms for nonholonomic mobile robots, Proc. IEEE Int. Conf. on Industrial Electronics, Porto, Portugal, 2009, 2229–2234.
  25. [25] R.C. Coulter, Implementation of the pure pursuit path tracking algorithm, Technical Report CMU-RI-TR-92-01, Robotics Institute, Carnegie Mellon University, Pittsburgh, PA, USA, 1992.
  26. [26] Koala robot specification, http://www.k-team.com/mobile-robotics-products/koala/specifications
  27. [27] J. Borenstein and L. Freng, Measurement and correction of systematic odometry errors in mobile robots, IEEE Transactions on Robotics and Automation, 12(6), 1996, 869–880.

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