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Luppino, G., Murata, A., Govoni, P., Matelli, M. (1999). Largely segregated parietofrontal connections linking rostral intraparietal cortex (areas AIP and VIP) and ventral premotor cortex (areas F5 and F4). Experimental Brain Research, 128, 181 – 187. MacNeilage, P.F. (1970). Motor control of serial ordering of speech. Psychological Review, 77: 182-196. Marteniuk, R.G., Leavitt, J.L., MacKenzie, C.L., Athenes, S. (1990). Functional relationships between grasp and transport components in a prehension task. Uman Movement Science, 9: 149 - 176 Marteniuk, R.G., Bertram, C.P. (1999). On Achieving Strong Inference in Prehension Research. Motor Control, 3 (3): 272-275 Mason, C.R., Gomez, J.E., Ebner, T.J. (2001). Hand synergies during reach-to-grasp. Journal of Neurophysiology 86(6): 2896 – 2910 Mascaro, M., Battaglia-Mayer, A., Nasi, L., Amit, D.J., Caminiti, R.(2003). The eye and the hand: neural mechanisms and network models for oculomanual coordination in parietal cortex. Cerebral Cortex, 13(12):1276-86. Medendorp, W.P, Goltz, H.C, Crawford, J.D, Vilis, T.(2005). Integration of target and effector information in human posterior parietal cortex for the planning of action. Journal of Neurophysiology, 93(2):954-62. Mel, B.W. (1991). A connectionist model may shed light on neural mechanism for visually guided reaching. Journal of Cognitive Neuroscience, 3: 273 – 292 Messier , J., Kalaska, J.F. (2000). Covariation of primate dorsal premotor cell activity with direction and amplitude during a memorized-delay reaching task. Journal of Neurophysiology, 84: 152 - 165 Molina Vilaplana, J., Feliu, J., López Coronado, J. (2002). A neural model of spatio temporal coordination in prehension. Lecture Notes in Computer Science, 2415: 9 – 14 Molina-Vilaplana, J., Pedreño-Molina, J.L., López Coronado, J. (2004). Hyper RBF model for accurate reaching in redundant robotic systems . Neurocomputing, 61,: 495 – 501. Morasso, P. (1981). Spatial control of arm movements. Experimental Brain Research, 42, 223-227. Morris, G., Nevet, A., Bergman, H. (2003). Anatomical funneling, sparse connectivity and redundancy reduction in the neural networks of the basal ganglia. Journal of Physiology, 97: 581-589.
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Universidad Politécnica de Cartage
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Neuro - Robotics constitutes an eme
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The results of the research develop
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Índice General Agradecimientos Int
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5.2 Simulaciones del modelo. Modeli
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Introducción 1 Introducción Intro
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Introducción la hora de inspirar m
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Introducción 1. Análisis experime
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Introducción 3.7 Transferencia tec
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Introducción presentan objetos de
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Capitulo 1. El Movimiento de Agarre
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Capitulo 2. Modelos Computacionales
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