MONOGRAFIA_18_Discapacidad

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javier mínguez zafra Bibliografía • Wolpaw, J. R., D. J. McFarland, G. W. Neat and C. A. Forneris (1991). An EEG-based brain-computer interface for cursor control. Electroencephalography and clinical neurophysiology 78(3), 252–259. • Birbaumer, N., N. Ghanayim, T. Hinterberger, I. Iversen, B. Kotchoubey, A. Kubler, J. Perelmouter, E. Taub and H. Flor (1999). A spelling device for the paralyzed. Nature 398, 297–298. • Karim, A. A., Hinterberger and J. Richter (2006). Neural Internet: Web surfing with brain potentials for the completely paralyzed. Neurorehabilitation and Neural Repair 20(4), 508–515. • del R. Millán, J., F. Renkens, J. Mourino and W. Gerstner (2004). Noninvasive brain-actuated control of a mobile robot by human EEG. Biomedical Engineering, IEEE Transactions on 51(6), 1026–1033. • Popovic, M.R., D.B. Popovic and T. Keller (2002). Neuropros- theses for grasping. Neurological Research 24(5), 443–452. • Iturrate, I., J. Antelis, A. Kubler and J. Minguez (2009). A Non- Invasive Brain-Actuated Wheelchair based on a P300 Neu- rophysiological Protocol and Automated Navigation. IEEE Transactions on Robotics 25(3), 614–627. • Escolano C., J.M. Antelis, and J. Minguez (2012) A telepresence mobile 190 robot controlled with a non-invasive braincomputer interface. IEEE Transactions on Systems, Man, and Cybernetics-Part B: Cybernetics, Vol. 42, no. 3, pp. 793–804. • Noé R., C. Escolano, L. Montesano, and J. Minguez (2011). Desarrollo de un sistema de control de brazo robot para la realización de tareas de alcance por medio de una interfaz cerebro computador, VI Congreso Iberoamericano de Tecnologías de Apoyo a la <strong>Discapacidad</strong> (Iberdiscap). • Luth T., D. Ojdanic, O. Friman, O. Prenzel, and A.Graser (2007). Low level control in a semi-autonomous rehabilitation robotic system via a Brain-Computer Interface. IEEE 10th International Conference of Rehabilitation Robotics (ICORR). • Rebsamen B., C.L. Teo, Q. Zeng, M.H. Ang, E. Burdet, C. Guan, H. Zhang, and C. Laugier (2007). Controlling a Wheelchair Indoors Using Thought. IEEE Intelligent Systems, vol. 07, pp. 1541–1672. • Ferreira A., R.L. Silva, W.C. Celeste, T.F. Bastos, and M. Sarcinelli (2007). Human-Machine Interface Based on Muscular and Brain Signals applied to a Robotic Wheelchair. IOP Publishing Ltd., vol. 07, pp.1541–1672, 2007. • Vanacker G., J.d.R.Millan, E. Lew, P. W.Ferrez, F.G. Moles, J. Philips, H. V. Brussel, and M. Nuttin (2007). Context- Based Filtering for Assisted Brain-Actua-
ted Wheelchair Driving. Computational Intelligence and Neuroscience. • Patel S.H. and P.N. Azzam (2005), “Characterization of N200 and P300: Selected Studies of the Event-Related Potential,” International Journal of Medical Sciences, pp. 147–154. • Escolano C., A. Ramos Murguialday, T. Matuz, N. Birbaumer, and J. Minguez (2011a). A telepresence robotic system operated with a P300-based brain-computer interface: Initial tests with ALS patients, International Conference of the IEEE Engineering in Medicine and Biology Society. • Escolano C. and J. Minguez (2011b). Sistema de teleoperación multi-robot basado en interfaz cerebro-computador. Revista Iberoamericana de Automática e Informática Industrial (RIAII), Volume 8, Number 2, pages 16-23. • Iturrate I., R. Chavarriaga, L. Montesano, J. Minguez, J. del R. Millan (2012a). Is robot control the only way with a brainmachine interface? A robot learning paradigm. Under review. • Montesano, L., M. Diaz, S. Bhaskar and J. Minguez (2010). Towards an Intelligent Wheelchair System for Cerebral Palsy Subjects. IEEE Transactions on Neural Systems and Rehabilitation Engineering. • Farwell, L.A. and E. Donchin (1988). Talking off the top of your head: toward a mental prosthesis utilizing eventrelated brain potentials. EEG Clinical Neurophysiology 70(6), 510–23. interfaces cerebro-computador no invasivos y robótica para sustitución motora • Krusienski, D. J., E. W. Sellers, F. Cabestaing, S. Bayoudh, D. J. McFarland, T. M. Vaughan and J. R. Wolpaw (2006). A comparison of classification techniques for the P300 Speller. Journal of Neural Engineering 3, 299–305. • Montesano L., J. Minguez, L. Montano (2006). Lessons Learned in Integration for Sensor-Based Robot Navigation Systems. International Journal of Advanced Robotic Systems, Volume 3, no. 1, Pages 85-91. • Mondada, F., M. Bonani, X. Raemy, J. Pugh, C. Cianci, A. Klaptocz, S. Magnenat, J.C. Zufferey, D. Floreano and A. Martinoli (2009). The e-puck, a Robot Designed for Education in Engineering. In: Proceedings of the 9th Conference on Autonomous Robot Systems and Competitions. Vol. 1. pp. 59–65 • Falkenstein M., J. Hoormann, S. Christ, and J. Hohnsbein (2000), ERP components on reaction errors and their functional significance: A tutorial. Biological Psychology, vol. 51, pp. 87–107. • Chavarriaga R. and J.d.R. Millán (2010). Learning from EEG error-related potentials in noninvasive brain-computer interfaces. IEEE T. on Neural Systems and Rehabilitation Engineering, vol. <strong>18</strong>, no. 4, pp. 381–388. • Iturrate I., L. Montesano, and J. Minguez (2010). Robot reinforcement learning using EEG-based reward signals,” in IEEE International Conference on Robotics and Automation (ICRA), pp. 4822–4829. 191
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ASPECTOS BIOÉTICOS, JURÍDICOS Y M
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© los autores Maquetado por Mediac
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SUMARIO Pr e S e n ta c i ó n. Car
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4.- Tratamiento ambulatorio involun
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1.- Introducción. ................
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carmen gonzález madrid Agradecemos
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afael de lorenzo garcía oportunida
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afael de lorenzo garcía internacio
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PRÓLOGO Ju a n Ma n u e l Mo r e n
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PRIMERA PARTE ASPECTOS BIOÉTICOS Y
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ignacio tremiño gómez Tenemos, po
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ignacio tremiño gómez Los derecho
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ignacio tremiño gómez dientes imp
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ignacio tremiño gómez con discapa
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ignacio tremiño gómez El estudio
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ignacio tremiño gómez bre la acti
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ignacio tremiño gómez En el ámbi
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ignacio tremiño gómez en la Conve
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grupo de trabajo del seminario de i
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III APROXIMACIÓN GENERAL AL ÁMBIT
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aproximación general al ámbito sa
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3. Reflexiones finales aproximació
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IV CONFLICTOS BIOÉTICOS Y LEGALES
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conflictos bioéticos y legales en
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V EL CONSENTIMIENTO INFORMADO DE LA
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el consentimiento informado de las
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VI LA DISCAPACIDAD Y LA PROTECCIÓN
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la discapacidad y la protección ju
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Page 161 and 162: I DISCAPACIDAD NEUROLÓGICA Y MEDIC
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Page 179: chronic paraplegic rats: Functional
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Page 194 and 195: javier mínguez zafra En relación
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Page 231 and 232: EPÍLOGO 1 Fr a n c i S c o va ñ
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