t for Two Linear Synergy Advances the Evolution of Directional Pointing Behaviour

Rohde, Marieke; Di Paolo, Ezequiel

doi:10.1007/11553090_27

Marieke Rohde²³ &
Ezequiel Di Paolo²³

Part of the book series: Lecture Notes in Computer Science ((LNAI,volume 3630))

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European Conference on Artificial Life

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Abstract

Motor synergies, i.e. systematic relations between effectors, have been first proposed as a principle in motor control by N. Bernstein in 1935. Thereafter, his idea has inspired many models of motor control in humans and animals. Recently, “linear synergy”, i.e. a linear relation between the torques applied to different joints, was reported to occur in human subjects during directional pointing movements [4]. In this paper, results from experiments in evolutionary robotics are presented to explore the concept of synergies in general and the role of linear synergy in the organisation of movement in particular. A 3D simulated robotic arm is evolved to reach to different target spots on a plane. Linear synergy is not found to be an outcome of the evolutionary search process, but imposing linear synergy as a constraint on artificial evolution dramatically improves evolvability and performance of evolved controllers.

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References

Arbib, M.A.: Perceptual Structures and Distributed Motor Control. In: Brooks, V.B. (ed.) Handbook of Physiology. Section 2: The Nervous System, Motor Control, Part 1, vol. II, pp. 1449–1480. American Physiological Society, Hyattsville (1981)
Google Scholar
Beer, R.D.: Toward the Evolution of Dynamical Neural Networks for Minimally Cognitive Behavior. In: Maes, P., Mataric, M.J., Meyer, J.-A., Pollack, J.B., Wilson, S.W. (eds.) Proc. 4th Int. Conf. on Simulation of Adaptive Behavior From Animals to Animats, vol. 4, pp. 421–429. MIT Press, Cambridge (1996)
Google Scholar
Bernstein, N.: The Coordination and Regulation of Movements. Pergamon, Oxford (1967)
Google Scholar
Gottlieb, G.L., Song, Q., Almeida, G.L., Hong, D., Corcos, D.: Directional Control of Planar Human Arm Movement. Journal of Neurophysiology 78, 2985–2998 (1997)
Google Scholar
Grossberg, S., Paine, R.W.: A Neural Model of Corticocerebellar Interactions During Attentive Imitation and Predictive Learning of Sequential Handwriting Movements. Neural Networks 13, 999–1046 (2000)
Article Google Scholar
Hebb, D.O.: The Organization of Behavior. A Neuropsychological Theory. John Wiley & Sons Inc., New York (1949)
Google Scholar
Kandel, E.R., Schwartz, J.H., Jessel, T.M. (eds.): Principles of Neural Science, 4th edn. McGraw–Hill, New York (2000)
Google Scholar
Morasso, P., Mussa Ivaldi, F.A., Ruggiero, C.: How a Discontinuous Mechanism Can Produce Continuous Patterns in Trajectory Formation and Handwriting. Acta Psychologica 54, 83–98 (1983)
Article Google Scholar
Nolfi, S., Floreano, D.: Evolutionary Robotics. The Biology, Intelligence, and Technology of Self–Organizing Machines. MIT Press, Cambridge (2000)
Google Scholar
Sporns, O., Edelman, G.M.: Solving Bernstein’s Problem: A Proposal for the Development of Coordinated Movement by Selection. Child Dev. 64, 960–981 (1993)
Article Google Scholar
Smith, R.: Open Dynamics Engine. 0.5 release (retrieved: 10.1.2005), http://ode.org
Tuller, B., Fitch, H., Turvey, M.: The Bernstein Perspective: II. The Concept of Muscle Linkage or Coordinative Structure. In: Kelso, S. (ed.) Human Motor Behavior. An Introduction, pp. 239–252. Lawrence Erlbaum, Hillsdale (1982)
Google Scholar
Turvey, M., Fitch, H., Tuller, B.: The Bernstein Perspective: I. The Problems of Degrees of Freedom and Context-Conditioned Variability. In: Kelso, S. (ed.) Human Motor Behavior. An Introduction, pp. 253–270. Lawrence Erlbaum, Hillsdale (1982)
Google Scholar
Weiss, P., Jeannerod, M.: Getting a Grasp on Coordination. News Physiol. Sci. 13, 70–75 (1998)
Google Scholar
Zaal, F., Daigle, K., Gottlieb, G.L., Thelen, E.: An Unlearned Principle for Controlling Natural Movements. Journal of Neurophysiology 82, 255–259 (1999)
Google Scholar

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Authors and Affiliations

CCNR — Centre for Computational Neuroscience and Robotics, University of Sussex,
Marieke Rohde & Ezequiel Di Paolo

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Marieke Rohde
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Ezequiel Di Paolo
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Editors and Affiliations

Natural Computation Group, University of Kent, CT2 7NF, Canterbury, UK
Mathieu S. Capcarrère
Computing Laboratory and Centre for BioMedical Informatics, University of Kent, CT2 7NF, Canterbury, UK
Alex A. Freitas
Computer Science Department, University College London, London, UK
Peter J. Bentley
Computing Laboratory, University of Kent, Canterbury, UK
Colin G. Johnson
Department of Electronics, University of York, YO10 5DD, Heslington, York, UK
Jon Timmis

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Rohde, M., Di Paolo, E. (2005). t for Two Linear Synergy Advances the Evolution of Directional Pointing Behaviour. In: Capcarrère, M.S., Freitas, A.A., Bentley, P.J., Johnson, C.G., Timmis, J. (eds) Advances in Artificial Life. ECAL 2005. Lecture Notes in Computer Science(), vol 3630. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11553090_27

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DOI: https://doi.org/10.1007/11553090_27
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-28848-0
Online ISBN: 978-3-540-31816-3
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