Biomedical Engineering Reference
In-Depth Information
Krebs, H. I., Volpe, B. T., Williams, D., Celestino, J., Charles, S. K., Lynch, D. and Hogan, N.
(2007). Robot-aided neurorehabilitation: A robot for wrist rehabilitation, Neural Systems
and Rehabilitation Engineering, IEEE Transactions on 15 , 3, pp. 327-335.
Kwakkel, G., Wagenaar, R. C., Koelman, T. W., Lankhorst, G. J. and Koetsier, J. C. (1997).
Effects of intensity of rehabilitation after stroke. A research synthesis, Stroke 28 ,8,pp.
1550-6.
Loureiro, R., Amirabdollahian, F. and Harwin, W. (2004). A Gentle/S Approach to Robot
Assisted Neuro-Rehabilitation , pp. 347-363, http://dx.doi.org/10.1007/10946978 22
Marchal-Crespo, L. and Reinkensmeyer, D. (2009). Review of control strategies for robotic
movement training after neurologic injury, Journal of NeuroEngineering and Rehabilitation
6 ,1,p.20.
Masia, L., Krebs, H. I., Cappa, P. and Hogan, N. (2007). Design and characterization of
hand module for whole-arm rehabilitation following stroke, Mechatronics, IEEE/ASME
Transactions on 12 , 4, pp. 399-407.
Micera, S., Carpaneto, J., Posteraro, F., Cenciotti, L., Popovic, M. and Dario, P. (2005a).
Characterization of upper arm synergies during reaching tasks in able-bodied and
hemiparetic subjects, Clin. Biomech. (Bristol, Avon) 20 , 9, pp. 939-46.
Micera, S., Carrozza, M., Guglielmelli, E., Cappiello, G., Zaccone, F., Freschi, C., Colombo,
R., Mazzone, A., Delconte, C., Pisano, F., Minuco, G. and Dario, P. (2005b). A simple
robotic system for neurorehabilitation, Autonomous Robots 19 , pp. 271-284.
Nef, T. and Riener, R. (2008). Shoulder actuation mechanisms for arm rehabilitation ex-
oskeletons, pp. 862-868, doi:10.1109/BIOROB.2008.4762794.
Page, S. J. (2003). Intensity versus task-specificity after stroke: How important is intensity?
Am.J.Phys.Med.Rehabil. 82 , 9, pp. 730-2.
Popovic, M. B., Popovic, D. B., Sinkjaer, T., Stefanovic, A. and Schwirtlich, L. (2002).
Restitution of reaching and grasping promoted by functional electrical therapy, Artif
Organs 26 , 3, pp. 271-5.
Reinkensmeyer, D. J., Kahn, L. E., Averbuch, M., McKenna-Cole, A., Schmit, B. D. and
Rymer, W. Z. (2000). Understanding and treating arm movement impairment after
chronic brain injury: Progress with the arm guide, J. Rehabil. Res. Dev. 37 , 6, pp. 653-62.
Reinkensmeyer, D. J., Takahashi, C. D., Timoszyk, W. K., Reinkensmeyer, A. N. and Kahn,
L. E. (2001). Design of robot assistance for arm movement therapy following stroke,
Advanced Robotics 14 , 7, pp. 625-637.
Rohrer,B.,Fasoli,S.,Krebs,H.I.,Hughes,R.,Volpe,B.,Frontera,W.R.,Stein,J.andHogan,
N. (2002). Movement smoothness changes during stroke recovery, J. Neurosci. 22 , 18,
pp. 8297-304.
Rosati, G., Gallina, P. and Masiero, S. (2007). Design, implementation and clinical tests of a
wire-based robot for neurorehabilitation, Neural Systems and Rehabilitation Engineering,
IEEE Transactions on 15 , 4, pp. 560-569, doi:10.1109/TNSRE.2007.908560.
Sanchez, J., R.J., Wolbrecht, E., Smith, R., Liu, J., Rao, S., Cramer, S., Rahman, T., Bobrow, J.
and Reinkensmeyer, D. (2005). A pneumatic robot for re-training arm movement after
stroke: rationale and mechanical design, in Rehabilitation Robotics, 2005. ICORR 2005.
9th International Conference on , pp. 500-504, doi:10.1109/ICORR.2005.1501151.
Sugar, T. G., Jiping, H., Koeneman, E. J., Koeneman, J. B., Herman, R., Huang, H., Schultz, R.
S., Herring, D. E., Wanberg, J., Balasubramanian, S., Swenson, P. and Ward, J. A. (2007).
Design and control of rupert: A device for robotic upper extremity repetitive therapy,
Neural Systems and Rehabilitation Engineering, IEEE Transactions on see also IEEE Trans.on
Rehabilitation Engineering 15 , 3, pp. 336-346, Journal Article.
 
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