Cite

M. Hillman, “Rehabilitation robotics from past to present - a historical perspective,” In Proc. 8th International Conference on rehabilitation Robotics (ICORR 2003), South Korea, 2003. Search in Google Scholar

K. Kiguchi, S. Kariya, K. Watanabe, K. Izumi, T. Fukuda, “An exoskeletal robot for human elbow motion support—sensor fusion, adaptation, and control,” IEEE Transactions on Systems Man and Cybernetics, Part B, vol. 31, n°3, 2001, pp. 353-361.10.1109/3477.93152018244798 Search in Google Scholar

J.B. Stephen, E.B. Ian, H.S. Stephen, “Performance evaluation of a planar 3DOF robotic exoskeleton for motor assessment,” Journal of Medical Devices, vol. 3, 2009, pp.1-12.10.1115/1.3131727 Search in Google Scholar

D.J. Reinkensmeyer, D. Aoyagi, J. L. Emken, J. A. Galvez, W. Ichinose,G. Kerdanyan, S. Maneekobkunwong, K. Minakata, J. A. Nessler, R. Weber, R. R. Roy, R. de Leon, J. E. Bobrow, S. J. Harkema, V. R. Edgerton, “Tools for understanding and optimizing robotic gait training,” Journal of Rehabilitation Research and Development, vol. 43, 2007, pp.657-670.10.1682/JRRD.2005.04.007317123206 Search in Google Scholar

J.F. Veneman, R. Kruidhof, E.E.G. Hekman, R. Ekkelenkamp, E.H.FV. Asseldonk, H. V. D. Kooij, “Design and evaluation of the LOPES exoskeleton robot for interactive gait rehabilitation,” IEEE Transactions on Neural and Rehabilitation Systems Engineering, vol. 15, n°3, 2007, pp. 379-386.10.1109/TNSRE.2007.903919 Search in Google Scholar

J.J. Daly, N. Hogan, E.M. Perepezko, et al., “Response to upper-limb robotics and functional neuromuscular stimulation following stroke,” Journal of Rehabilitation Research & Development, vol. 42, n°6, 2005, pp. 723-736.10.1682/JRRD.2005.02.004816680610Search in Google Scholar

G. Romer, H. Stuyt, A. Peters, “Cost-savings and economic benefits due to the assistive robotic manipulator (ARM),” In Proc. of the 9th international conference on rehabilitation robotics (ICORR 2005), Illinois (Chicago), 2005, pp. 201-204. Search in Google Scholar

H. I. Krebs, J. J. Palazzolo, L. Dipietro, M. Ferraro, J. Krol, K. Rannekleiv, B. T. Volpe, N. Hogan, “Rehabilitation robotics: Performance-based progressive robot-assisted therapy,” Autonomous Robots, vol. 15, n°1, 2003, pp. 7-20.10.1023/A:1024494031121 Search in Google Scholar

P.S. Lum, C. G. Burgar, H.F.M. Van der Loos, P.C. Shor, M. Majmundar, R. Yap, “MIME robotic device for upper-limb neuro-rehabilitation in sub acute stroke subjects: A follow-up study,” Journal of Rehabilitation Research & Development, vol.43, n° 5, 2006, pp. 631-642.10.1682/JRRD.2005.02.004417123204 Search in Google Scholar

T. G. Sugar, J.He, E.J. Koeneman, J.B. Koeneman, R.Herman, H. Huang, R.S. Schultz, D.E. Herring, J.Wanberg, S. Balasubramanian, P. Swenson, J.A. Ward, “Design and control of RUPERT: A device for robotic upper extremity repetitive therapy,” IEEE Transactions on Neural Systems and Rehabilitation Engineering,vol.15, n°3, 2007, pp. 336-346.10.1109/TNSRE.2007.90390317894266 Search in Google Scholar

M. Yamano, Y. Suzukawa, J. Berengueres, R. Tadakuma, “Flexible control system of a robot hand using micro control units and RT-middleware,” International Journal of Social Robotics, DOI 10.1007/s12369-011-0130-y. Search in Google Scholar

H. Mehdi, O. Boubaker, “Stiffness and impedance control using Lyapunov theory for robot-aided rehabilitation,” International Journal of Social Robotics, DOI: 10.1007/s12369- 011-0128-5. Search in Google Scholar

G. Herrmann & C. Melhuish, “Towards safety in human robot interaction,” International Journal of Social Robotics, vol. 2, n°3, 2010, pp. 217-219.10.1007/s12369-010-0061-z Search in Google Scholar

M. Vermeulen, M. Wisse, “Intrinsically safe robot arm: Adjustable static balancing and low power actuation,” International Journal of Social Robotics, vol. 2, n°3, 2010, pp. 275-288.10.1007/s12369-010-0048-9 Search in Google Scholar

M. Van Damme, P. Beyl, B. Vanderborght, R. Versluys, R. Van Ham, I. Vanderniepen, F. Daerden, D. Lefeber, “The safety of a robot actuated by pneumatic muscles—A case study,” International Journal of Social Robotics, vol. 2, n°3, 2010, pp. 289-303.10.1007/s12369-009-0042-2 Search in Google Scholar

S. M. M. Rahman and R. Ikeura, “Optimizing perceived heaviness and motion for lifting objects with a power assist robot system considering change in time constant,” International Journal on Smart Sensing and Intelligent Systems, vol.5, n°2, 2012, pp. 458-486.10.21307/ijssis-2017-490 Search in Google Scholar

N. Hogan, “Impedance control: An approach to manipulators: Part 1, 2, 3”, ASME Journal of Dynamic Systems, Measurement and Control, vol. 107, n° 1, 1985, pp. 1-24.10.1115/1.3140701 Search in Google Scholar

H. Mehdi, O. Boubaker, “Rehabilitation of a human arm supported by a robotic manipulator: A position/force cooperative control,” Journal of Computer Science, vol.6, n° 8, 2010, pp. 912-919.10.3844/jcssp.2010.912.919 Search in Google Scholar

H. Mehdi, O. Boubaker, “Impedance controller tuned by particle swarm optimization for robotic arms,” International Journal of Advanced Robotic Systems, vol.8, n°5, 2011, pp.93103.10.5772/45692 Search in Google Scholar

H. Mehdi, O. Boubaker, “Position/force control optimized by particle swarm intelligence for constrained robotic manipulators,” In Proc. Of the 11th IEEE International Conference on Intelligent Systems Design and Applications (ISDA’2011), Córdoba, Spain, 2011, pp. 190195.10.1109/ISDA.2011.6121653 Search in Google Scholar

A. Aloulou, O. Boubaker, “Control of a step walking combined to arms swinging for a three dimensional humanoid prototype,” Journal of Computer Science, vol. 6, n° 8, 2010, pp. 886-895.10.3844/jcssp.2010.886.895 Search in Google Scholar

P.E. Gill, W. Murray, M.H. Wright, “Practical optimization,” Academic Press, 1981. Search in Google Scholar

M. P. Singh, P. K. Tripathi, K.V Gangadharan, “FPGA based vibration control of a mass varying two-degree of freedom system,” International Journal on Smart Sensing and Intelligent Systems, vol.4, n°4, 2011, pp. 698-709.10.21307/ijssis-2017-464 Search in Google Scholar

W. Benrejeb, O. Boubaker, “FPGA modeling and real-time embedded control design via LabVIEW Software: Application for swinging-Up a pendulum,” International Journal on Smart Sensing and Intelligent Systems, vol. 5, n°3, 2012, pp. 576-591.10.21307/ijssis-2017-496 Search in Google Scholar

K. Dhanalakshmi, Aditya Avinash, M. Umapathy, M. Marimuthu, “Experimental study on vibration control of shape memory alloy actuated flexible beam,” International Journal on Smart Sensing and Intelligent Systems, vol. 3, n°2, 2010, pp. 156-175.10.21307/ijssis-2017-387 Search in Google Scholar

O. Boubaker, “National Instruments LabVIEW: Ultimate Software for Engineering Education,” in Proc. International Conference on Frontiers in Education: Computer Science and Computer Engineering, Las Vegas, 2011. http://cerc.wvu.edu/download/WORLDCOMP%2711/201 l%20CD%20papers/FEC4450.pdf Search in Google Scholar

The National Instruments® LabVIEW™ Corporation website (2010). [Online]. Available: http://www.ni.com/labview/ Search in Google Scholar

H. Mehdi, O. Boubaker, “Robust tracking control for constrained robots,” Procedia Engineering, vol. 41, 2012, pp. 1292-1297.10.1016/j.proeng.2012.07.313 Search in Google Scholar

H. Mehdi, O. Boubaker, “New robust tracking control for safe constrained robots under unknown impedance environment,” Lecture Notes in Computer Science, vol. 7429, 2012, pp. 313-323. Search in Google Scholar

A. Aloulou, O. Boubaker, “Minimum jerk-based control for a three dimensional bipedal robot,” Lecture Notes in Computer Science, vol. 7102, 2011, pp. 251-262. Search in Google Scholar

F. Kunwar, B. Benhabib, “Advanced predictive guidance navigation for Mobile Robots: A novel strategy for rendezvous in dynamic settings,” International Journal on Smart Sensing and Intelligent Systems, vol. 1, n°4, 2008, pp. 858-890.10.21307/ijssis-2017-325Search in Google Scholar

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