... Rehabilitation. Center, Korea, Springerlink Volume 6, Issue 1, pp 1-9, 2016. 14. Armeo Therapy Concept. Available: http://www.hocoma.com/products/armeo/
An Approach in Biotechnology Education – Laboratory for Medical Rehabilitation Robots, Assistive Care and Tele-robots Sanda Victorinne Paturca1, Daniel Petre1, Cosmin Karl Banica1, Ioana Raluca Adochiei2, Ana Maria Dumitrescu1, Cristian Molder3, Valeriu Bostan1 1
Faculty of Electrical Engineering, University “Politehnica” of Bucharest, Romania Faculty of Mechatronics and Integrated Armament Systems, Military Technical Academy, Bucharest, Romania 3 Faculty of Military Electronic and Information Systems, Military Technical Academy, Bucharest, Romania 2
Reference 1. S. Paţurcă, M. Ilas, A. Greu, C. Ilas, Bluetooth Bi-Directional Communication between an NXT Robot nd a PC, Constanta Maritime University Annals, Year 10, Vol.12, pp. 449-456, 6 pg., 2009; 2. S. V. Paturca, S. D. Grigorescu, C. Cepisca, C. K. Banica, A. Baluta, Multiple Sensor Software and Hardware Arhitecture for Field Robots 9Th International Symposium on Advanced Topics in Electrical Engineering; (ATEE2015), 2015; pg. 969 – 974. 3. Shane Xie, Advanced Robotics for Medical Rehabilitation. Current State of the Art and Recent Advances, Springer, 2016 4. N. Costiuc, C. Molder, Automatic Remote Controlled Hand for Object Manipulation – MTA REVIEW, vol. XXIII, no. 1, 2013 5. N. Costiuc, C. Molder, Automatic Remote Controlled Hand, Microchip Academic Newsletter, pp. 7-8, 2012 6. C. Ilas, S. Paţurcă, Robotics Laboratory for Electrical Engineering Students, The 7TH International Symposium On Advanced Topics in Electrical Engineering (ATEE2011), Bucharest, Romania, 12 – 14 May 2011, Editura POLITEHNICA Press, Bucureşti, IEEE Catalog Number CFP1114P-PRT, 2011. 7. K. Laver, S. George, J. Ratcliffe, M. Crotty, Virtual reality stroke rehabilitation—hype or hope? Aust. Occup. Ther. J. 58, 215–219, 2011 8. H.S. Lo, S.Q. Xie, Exoskeleton robots for upper-limb rehabilitation: state of the art and future prospects. Med. Eng. Phys. 34, 261–268, 2012 9. S. Patel, H. Park, P. Bonato, L. Chan, M. Rodgers, A review of wearable sensors and systems with application in rehabilitation. J. NeuroEng. Rehabil. 9(21) 2012 10. L. Marchal-Crespo, D.J. Reinkensmeyer, Review of control strategies for robotic movement training after neurologic injury. J Neuro Eng. Rehabil. 6, 20, 2009 11. S. Balasubramanian, H.R. Wei, M. Perez, B. Shepard, E. Koeneman, J. Koeneman, J. He, Rupert: An exoskeleton robot for assisting rehabilitation of arm functions, in 2008 Virtual Rehabilitation, IWVR,, 2008, pp. 163–167 12. J.A. Saglia, N.G. Tsagarakis, J.S. Dai, D.G. Caldwell, Control strategies for ankle rehabilitation using a high performance ankle exerciser, in IEEE International Conference on Robotics and Automation 2010, pp. 2221– 2227 13. Won-Kyung Song, Trends in rehabilitation robots and their translational research in National Rehabilitation Center, Korea, Springerlink Volume 6, Issue 1, pp 1-9, 2016 14. Armeo Therapy Concept. Available: http://www.hocoma.com/products/armeo/
