ACKNOWLEDGMENTS
The support of NSF, NIH, and the European Union (under the POETICON project) is
gratefully acknowledged.
REFERENCES
[1] The POETICON. The Poetics of Ever yday Life: Grounding Resources and Mechanisms for
Artificial Agents. Project funded under the 7
th
Framework, European Union, www.poeticon.eu .
[2] Arbib M, Iberall T, Lyons D. Schemas that integrate vision and touch for hand control.
In: Vision, Brain, and Cooperative Computation. MIT Press; 1987. p. 489–510.
[3] Averbeck B, Chafee M, Crowe D, Georgopoulos A. Neural activity in prefrontal cortex during
copying geometrical shapes. I. Single cells encode shape, sequence, and metric parameters.
Exp Brain Res 2003;150(2):127–41.
[4] Bailey D, Chang N, Feldman J, Narayanan S. Extending embodied lexical development.
In: Proceedings of the Annual Meeting of the Cognitive Science Society. 1998. p. 84–9.
[5] Bailey D, Feldman J, Narayanan S, Lakoff G. Modeling embodied lexical development.
In: Proceedings of the Annual Meeting of the Cognitive Science Society. 1997. p. 19–24.
[6] Berthier N, Rosenstein M, Barto A. Approximate optimal control as a model for motor learning
the kinematics of reaching by a dynamical arm. Psychol Rev 2005;112:329–46.
[7] Buccino G, Lui F, Canessa N, Patteri I, Lagravinese G, Benuzzi F, et al. Neural circuits involved
in the recognition of actions performed by nonconspecifics: An FMRI study. J Cogn Neurosci
2004;16(1):114–26.
[8] Citman A, Massaquoi S, Takahashi K, Ebner T. Kinematic analysis of manual tracking in
monkeys: Characterization of movement intermittencies during a circular tracking task.
J Neurophysiol 2004;91:901–11.
[9] d’Avella A, Bizzi E. Shared and specific muscle synergies in natural motor behaviors. Proc Natl
Acad Sci U S A 2005;102(8):3076–81.
[10] del Vecchio D, Murray R, Perona P. Decomposition of human motion into dynamics-based
primitives with application to drawing tasks. Automatica 2003;39:2085–98.
[11] Doeringer J, Hogan N. Intermittency in preplanned elbow movements persists in the absence
of visual feedback. J Neurophysiol 1998;80(4):1787–99.
[12] Fishbach A, Roy S, Bastianen C, Miller L, Houk J. Kinematic properties of on-line error
corrections in the monkey. Exp Brain Res 2005;164(4):442–57.
[13] Flash T, Henis E. Arm trajectory modifications during reaching towards visual targets. J Cogn
Neurosci 1991;3(3):220–30.
[14] Fod A, Mataric
´
M, Jenkins O. Automated derivation of primitives for movement classification.
Autonomous Robots 2002;12(1):39–54.
[15] Gallese V, Fadiga L, Fogassi L, Rizzolatti G. Action recognition in the premotor cortex. Brain
1996;119(2):593–609.
[16] Gallese V, Lakoff G. The brain’s concepts: The role of the sensory-motor system in conceptual
knowledge. Cognitive Neuropsychology 2005;22(3–4):455–79.
[17] Georgopoulos A, Schwartz A, Kettner R. Neuronal population coding of movement direction.
Science 1986;233(4771):1416–9.
References 129
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