[Abdessemed, F. and Benmahammed, K. (2001). A two-layer robot controller design using evolutionnary algorithms, Journal of Intelligent and Robotic System 30(1): 73-94.10.1023/A:1008122728715]Search in Google Scholar
[Abdessemed, F., Benmahammed, K. and Monacelli, E. (2004). A fuzzy-based reactive controller for a non-holonomic mobile robot, Journal of Robotics and Autonomous Systems 47(1): 31-46.10.1016/j.robot.2004.02.006]Search in Google Scholar
[Abdessemed, F., Benmahammed, K. and Monacelli, E. (2006). A learning paradigm for motion control of mobile manipulators, International Journal of Applied Mathematics and Computer Science 16(4): 475-484.]Search in Google Scholar
[Albers, A., Brudniok, S., Ottnad, J., Sauter, C. and Sedchaicharn, K. (2006). Upper body of a new humanoid robot: The design of ARMAR 3, 6th IEEE-RAS International Conference on Humanoid Robots, Genova, Italy, pp. 308-313.]Search in Google Scholar
[Ambrose, R.O., Savely, R.T., Goza, S.M., Strawser, P., Diftler, M.A., Spain, I., Radford, N. and Martin, L. (2004). Mobile manipulation using NASA’s Robonaut, Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’2004, New Orleans, LA, USA, Vol. 2, 2104-2109.]Search in Google Scholar
[Arai, T. and Ota, J. (1996). Motion planning of multiple mobile robots using virtual impedance, Journal of Robotics and Mechatronics 8(1): 67-74.10.20965/jrm.1996.p0067]Search in Google Scholar
[Bayle, B. (2001). Mod´elisation et commande cin´ematique des manipulateurs mobiles `a roues, Ph.D. thesis, LAASCNRS, Toulouse University, Toulouse.]Search in Google Scholar
[Bischoff, R. and Graefe, V. (2004). Hermes: A versatile personal assistant robot, Proceedings of the IEEE 92(11): 1759-1779.10.1109/JPROC.2004.835381]Search in Google Scholar
[Borenstein, J. and Koren, Y. (1991). The vector field histogramfast obstacle avoidance for mobile robots, IEEE Journal of Robotics and Automation 7(3): 278-288.10.1109/70.88137]Search in Google Scholar
[Campion, G., Bastin, G. and D’Andr´ea-Novel, B. (1996). Structural proprieties and classification of kinematic and dynamic models of wheeled mobile robots, IEEE Transactions on Robotics and Automation 12(1): 47-62.10.1109/70.481750]Search in Google Scholar
[Carelli, R., Secchi, H. and Mut, V. (1999). Algorithms for stable control of mobile robots with obstacle avoidance, Latin American Applied Research 29(3/4): 191-196.]Search in Google Scholar
[Djebrani, S. and Abdessemed, F. (2009). Multi-agent prototyping for a cooperative carrying task, IEEE International Conference on Robotics and Biomimetics, ROBIO’2009, Guilin, Guangxi, China, pp. 1421-1426.]Search in Google Scholar
[Djebrani, S., Benali, A. and Abdessemed, F. (2009). Forceposition control of a holonomic mobile manipulator, 12th International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines, CLAWAR’2009, Istanbul, Turkey, pp. 1023-1030.]Search in Google Scholar
[Djebrani, S., Abdessemed, F. and Benali, A. (2010a). A multiagent strategy for a simple cooperative behavior, International Journal of Information Acquisition 7(4): 331-345.10.1142/S0219878910002257]Search in Google Scholar
[Djebrani, S., Benali, A. and Poisson, G. (2010b). Input-state linearisation of an omni-directional mobile robot, IEEE International Symposion on Industrial Electronics, ISIE’2010, Bary, Italy, pp. 1889-1894.]Search in Google Scholar
[Djebrani, S., Benali, A. and Abdessemed, F. (2011). Modelling and feedback control of an omni-directional mobile manipulator, IEEE Conference on Automation Science and Engineering, CASE’2011, Trieste, Italy, pp. 785-791.]Search in Google Scholar
[Goldenberg, A. A. (1988). Implementation of force and impedance control in robot manipulators, Proceedings of the 27th IEEE International Conference on Decision and Control, Philadelphia, PA, USA, Vol. 3, pp. 1626-1632.]Search in Google Scholar
[Hashimoto, S. (2002). Humanoid robots in Waseda University: Hadalay-2 and Wabian, Journal of Autonomous Robots 12(1): 25-38.]Search in Google Scholar
[Hogan, N. (1985). Impedance control: An approach to manipulation, I: Theory, II: Implementation, III: Applications, ASME Journal of Dynamic Systems, Measurement and Control 107(1): 1-24.10.1115/1.3140701]Search in Google Scholar
[Isidori, A. (1995). Nonlinear Control Systems, 3rd Edn., Springer-Verlag, New York, NY.]Search in Google Scholar
[Khalil, W. and Kleinfinger, J. (1986). A new geometric notation for open and closed loop robots, Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’86, San Francisco, CA, USA, Vol. 3, pp. 1174-1180.]Search in Google Scholar
[Khatib, O. (1986). Real-time obstacle avoidance for manipulators and mobile robots, International Journal of Robotics Research 5(1): 90-98.10.1177/027836498600500106]Search in Google Scholar
[Khatib, O., Yokoi, K., Chang, K., Ruspini, D., Holmberg, R. and Casal, A. (1996). Coordination and decentralized cooperation of multiple mobile manipulators, Journal of Robotic Systems 13(11): 755-764.10.1002/(SICI)1097-4563(199611)13:11<755::AID-ROB6>3.0.CO;2-U]Search in Google Scholar
[Konno, A., Nagashima, K., Furukawa, R., Nishiwaki, K., Noda, T., Inaba, M. and Inoue, H. (1997). Development of a humanoid robot Saika, Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS’97, Grenoble, France, pp. 805-810.]Search in Google Scholar
[Kosuge, K., Sato, M. and Kazamura, N. (2000). Mobile robot helper, Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’00, San Francisco, CA, USA, pp. 583-588.]Search in Google Scholar
[Liu, K. and Lewis, F.L. (1990). Decentralized continuous robust controller for mobile robots, Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’90, Cincinnati, OH, USA, Vol. 3, pp. 1822-1827.]Search in Google Scholar
[Mourioux, G., Novales, C., Poisson, G. and Vieyres, P. (2006).]Search in Google Scholar
[Omni-directional robot with spherical orthogonal wheels: Concepts and analyses, Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’06, Orlando, FL, USA, pp. 3374-3379.]Search in Google Scholar
[Pin, F.G. and Killough, S.M. (1994). A new family of omnidirectional and holonomic wheeled platforms for mobile robots, IEEE Transactions on Robotics and Automation 10(4): 480-489.10.1109/70.313098]Search in Google Scholar
[Poisson, G., Parmantier, Y. and Novales, C. (2001). Mod´elisation cin´ematique d’unrobot mobile omnidirectionnel `a roues sph´eriques, XVi`eme Congr´es Franc¸ais de M´ecanique, Nancy, France, pp. 3-7.]Search in Google Scholar
[Sciavicco, L. and Siciliano, B. (2000). Modelling and Control of Robots Manipulators, 2nd Edn., Advanced Textbooks in Control and Signal Processing Series, Springer-Verlag, London.10.1007/978-1-4471-0449-0]Search in Google Scholar
[Slotine, J. J. and Li, W. (1991). Applied Nonlinear Control, Prentice-Hall, Upper Saddle River, NJ.]Search in Google Scholar
[specAmotor (2011). Re-40-148867: Electric motor datasheet, http://www.specamotor.com/pdf/datasheet_RE-40-148867_en.pdf.]Search in Google Scholar
[Spong, M.W., Hutchinson, S. and Vidyasagar, M. (1989). Robot Dynamics and Control, John Wiley, New York, NY.]Search in Google Scholar
[Sugeno, M. and Nishida, M. (1985). Fuzzy control of a model car, Fuzzy Sets and Systems 16(2): 103-113.10.1016/S0165-0114(85)80011-7]Search in Google Scholar
[Watanabe, K., Shiraishi, Y., Tzafestas, S.G., Tang, J. and Fukuda, T. (1998). Feedback control of an omnidirectional autonomous platform for mobile service robots, Journal of Intelligent and Robotic Systems 22(3-4): 315-330.10.1023/A:1008048307352]Search in Google Scholar
[Williams, R.L., Carter, B.E., Gallina, P. and Rosati, G. (2002). Dynamic model with slip for wheeled omnidirectional robots, IEEE Transactions on Robotics and Automation 18(3): 285-293.10.1109/TRA.2002.1019459]Search in Google Scholar
[Yamamoto, Y. (1994). Control and Coordination of Locomotion and Manipulation of a Wheeled Mobile Manipulator, Ph.D. thesis, University of Pennsylvania, Philadelphia, PA.]Search in Google Scholar