S.A.A. Moosavian and A. Pourreza
[1] S.K. Saha & J. Angeles, Dynamics of nonholonomic mechanicalsystems using a natural orthogonal complement, ASME Journalof Applied Mechanics, 58, 1991, 238–244. [2] Z. Vafa & S. Dubowsky, On the dynamics of manipulatorsin space using the virtual manipulator approach, Proc. of theIEEE International Conference on Robotics and Automation,Raleigh, NC, 1987, 579–585. [3] E. Papadopoulos & S. Dubowsky, On the nature of controlalgorithms for free-floating space manipulators, IEEE Trans-actions on Robotics and Automation, 7 (6), 1991, 750–758. [4] S.A.A. Moosavian & E. Papadopoulos, Explicit dynamics ofspace free-flyers with multiple manipulators via SPACEMAPL,Journal of Advanced Robotics, 18 (2), 2004, 223–244. [5] E. Papadopoulos & J. Poulakakis, Planning and model-basedcontrol for mobile manipulators, Proc. of the IEEE/RSJ Inter-national Conference on Intelligent Robots and Systems (IROS2000), 2000, 1810–1815. [6] K. Alipour, S.A.A. Moosavian, & Y. Bahramzadeh, Dynamicsof wheeled mobile robots with flexible suspension: Analyticalmodeling and verification, International Journal of Roboticsand Automation, 2008. [7] S.A.A. Moosavian & M. Eslamy, Object manipulation bymultiple arms of a wheeled mobile robotic system, Proc. ofthe IEEE International Conference on Robotics, Automation& Mechatronics (RAM 2008), China, 2008. [8] R.F. Abo-Shanab, N. Sepehri, & Q. Wu, On dynamic modelingof robot manipulators: The method of virtual links, Proc. ofASME Design Engineering Technical Conference, Montreal,Canada, 2002, Paper #DETC’02/MECH-34225. [9] Q. Yu & I.-M. Chen, A general approach to the dynamicsof nonholonomic mobile manipulator systems, ASME Journalof Dynamic Systems, Measurement and Control, 124, 2002,512–552. [10] H.G. Tanner, K.J. Kyriakopoulos, & N.J. Krikelis, Modeling ofmultiple mobile manipulators handling a common deformableobject, Journal of Robotic Systems, 15 (11), 1998, 599–623. [11] Y. Li & Y. Liu, Real-time tip-over prevention and pathfollowing control for redundant nonholonomic mobile modularmanipulators via fuzzy and neural-fuzzy approaches, Journalof Dynamic System, Measurement, and Control, Transactionsof ASME, 128, 2006, 753–764. [12] P. Guglielmetti & R. Longchamp, A closed form inverse dy-namics model of the delta parallel robot, Proc. of Int. Federa-tion of Automatic Control Conference on Robot Control, 1994,39–44. [13] H. Pang & M. Shahinpoor, Inverse dynamics of a parallelmanipulator, Journal of Robotic Systems, 11 (8), 1994, 693–702.119 [14] L.W. Tsai, Solving the inverse dynamics of parallel manip-ulators by the principle of virtual work, DETC98/MECH-5865, Proc. ASME Design Engineering Technical Conference,Atlanta, GA,. [15] Y. Li, Q. Xu, & Y. Liu, Novel design and modeling of amobile parallel manipulator, IEEE Int. Conf. on Robotics andAutomation (ICRA06), Orlando, Florida, USA, May 15–19,2006, 1135–1140. [16] M.H. Raibert & J.J. Craig, Hybrid position/force control ofmanipulators, ASME Journal of Dynamic Systems, Measure-ment and Control, 126, 1981, 126–133. [17] S. Hayati, Hybrid position/force control of multi-arm cooper-ating robots, Proc. IEEE Int. Conf. Robotics Automation, SanFrancisco, 1986, 82–89. [18] N. Hogan, Impedance control: An approach to manipula-tion, ASME Journal of Dynamic Systems, Measurement andControl, 107, 1985, 1–24. [19] S.A. Schneider & R.H. Cannon, Object impedance control forcooperative manipulation: Theory and experimental results,IEEE Transactions on Robotics and Automation, 8 (3), 1992,383–394. [20] D.W. Meer & S.M. Rock, Coupled system stability of flexible-object impedance control, Proc. of the IEEE Int. Conf. onRobotics and Automation, Nagoya, Japan, 1995, 1839–1845. [21] S.A.A. Moosavian & E. Papadopoulos, Multiple impedancecontrol for object manipulation, Int. Conf. on Intelligent Robotsand Systems, Victoria, Canada, October 13–17, 1998. [22] S.A.A. Moosavian & E. Papadopoulos, On the control of spacefree-flyers using multiple impedance control, Proc. IEEE Int.Conf. Robotics and Automation, NM, USA, April 21–27, 1997. [23] S.A.A. Moosavian, R. Rastegari, & E. Papadopoulos, Multipleimpedance control for space free-flying robots, AIAA Journalof Guidance, Control, and Dynamics, 28 (5), 2005, 939–947. [24] S.A.A. Moosavian & R. Rastegari, Multiple-arm space free-flying robots for manipulating objects with force trackingrestrictions, Journal of Robotics and Autonomous Systems,54 (10), 2006, 779–788. [25] R. Rastegari & S.A.A. Moosavian, Multiple impedance controlof cooperative manipulators using virtual object grasp, Proc.of the IEEE International Conference on Control Applications(CCA), Munich, Germany, October 4–6, 2006. [26] R. Rastegari & S.A.A. Moosavian, Internal force tuning ofcooperative object manipulation tasks, International Journalof Science and Technology (Scientia Iranica), 15 (1), 2008,94–107. [27] S.A.A. Moosavian & E. Papadopoulos, Modified transposeJacobian control of robotic systems, Automatica, 43 (7), 2007,1226–1233. [28] S.A.A. Moosavian & H.R. Ashtiani, Cooperative object ma-nipulation using non-model-based multiple impedance control,Proc. of the IEEE International Conference on Control Appli-cations (CCA), Munich, Germany, October 4–6, 2006. [29] S.A.A. Moosavian & H.R. Ashtiani, Cooperation of robotic ma-nipulators using non-model-based multiple impedance control,Journal of Industrial Robots, 2008. [30] S.A.A. Moosavian & K. Alipour, On the dynamic tip-overstability of wheeled mobile manipulators, International Journalof Robotics and Automation, 22 (4), 2007, 322–328. [31] H.R. Daniali, P.J. Zspbor-Murray, & J. Angeles, Singularityanalysis planar parallel manipulators, Mechanism and MachineTheory, 30 (5), 1995, 665–678. [32] K.H. Hunt, C.R. Tischler, & A.E. Samue, A spatial of extensionof cardanic movement: Some derived mechanisms (Melbourne:The University of Melbourne, 1996). [33] J.J. Craig, Introduction to robotics, mechanics and control(Reading, MA: Addison Wesley, 1989). [34] S.A.A. Moosavian, A. Pourreza, & K. Alipour, Kinematics anddynamics of a hybrid serial-parallel mobile robot, Proc. of theIEEE International Conference on Robotics and Automation,Kobe, Japan, 2009.
Important Links:
Go Back
